According to the zero-pole map, please sketch the amplitude response of the system. jo
For systems having the following pole-zero plots (on the complex plane), please sketch the corresponding zero-input response X 0 0 0 X b)
For systems having the following pole-zero plots (on the complex plane), please sketch the corresponding zero-input response X 0 0 0 X b)
The pole-zero diagram of a system is given below. The DC gain of the system is 15(1- Im(zI 1기 -0 0. (i) Sketch the approximate magnitude response of the system i) Determine the transfer function Ha), of the systenm (ii) Sketch the Direct Form I and Direct Form II implementations of this system
The pole-zero diagram of a system is given below. The DC gain of the system is 15(1- Im(zI 1기 -0 0. (i) Sketch the approximate magnitude response...
Please solve with detailed steps and reasoning
6. For the open-loop pole-zero plot shown in Figure P8.4, sketch the root locus and find the break-in point. Section: 8.5] jo s-plane jl 32 -1 FIGURE P8.4
6. For the open-loop pole-zero plot shown in Figure P8.4, sketch the root locus and find the break-in point. Section: 8.5] jo s-plane jl 32 -1 FIGURE P8.4
- Frequency Response (Amplitude Response only). Hz). with frequency, 22. for a discrete time system shown below. *(-1) - x[-2] - ... -0 and yf-1) - Y[-2] ... - x[r] - int) Find “Math Model" for the system. nt) Find "Transfer Function" for the system. Draw the pole-zero plot for the system (use unit circle on Re-Im axis) Sketch the amplitude response of the system → indicate values at important points (92 = 0, 1/4, 21/4, 37/4, T) include detailed...
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
please help answer all the question and dont skip. Thank
you!
1. Sketch the pole-zero diagram for the following transfer function. Ensure you label the axes and the pole-zero locations. Assume a > b > 0. TF(s) = (s + a) s(s+b) 2. If the time constant of the lowest frequency pole in a system is 1 second, after approx- imately what period of time following turn-on could the system be considered to be in steady-state conditions? 3. The PID...
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
1. A discrete-time LTI system has the system function H() given below: (a) Sketch the pole-zero plot for this system How many possible regions of convergence (ROCs) are there for H(). List the possible ROCs and indicate what type of sequence (left-sided, right-sided, two-sided, finite-length) they correspond to. (b) Which ROC (or ROCs) correspond to a stable system Why? (c) Which ROC (or ROCs) correspond to a causal system? Why? (d) Write a difference equation that relates the input to...
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...
Below is the zero and poles plot of a system. What is the magnitude response of this system? Pole/Zero Plot 0.5 0 0.5 0.5 0 Real Part 0.5 H(J) : (exp(2*90i*theta)-2"exp(%itthet exp(2-i.6)-2 exp(i-0)+2 exp(2 i.)-exp(i.0)+0.5 Your last answer was interpreted as follows: CHR The variables found in your answer were: [e] Incorrect answer.
Below is the zero and poles plot of a system. What is the magnitude response of this system? Pole/Zero Plot 0.5 0 0.5 0.5 0 Real Part...