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Mod/ sim can you solve these questions please from A,v,c,d,e,f
thanks a lot
2. For the...
Please solve part b and c and d !! Consider the closed loop system shown in...
Please solve part b and c and d !!
Consider the closed loop system shown in Figure 4. The root locus of that system is shown in Figure 5 (s+40s+8) R(s) Y(s) Figure 4 System block diagram of Problem 4 a) On the root locus plot, sketch the region of possible roots of the dominant closed-loop poles such that the system response to a unit step has the following time domain specifications. [5] i. Damping ratio, 20.76 ii. Natural frequency,....
PID controller: KG (5) - K(s’+1.55 +0.5) Plant: G (s)=- 1 (20s +1)(10s +1)(0.5s +1) For...
PID controller: KG (5) - K(s’+1.55 +0.5) Plant: G (s)=- 1 (20s +1)(10s +1)(0.5s +1) For this control system, do the following tasks. Advice: Before you start, it is advised that you convert G,(s) to a standard form so that the leading coefficients of the denominator polynomials become 1 (without altering the overall transfer function). (1) Plot the root locus for 0 <K<using a computer tool, e.g., Matlab tools such as rlocus(), rltool() or any appropriate computer tools. Also, read...
I got A,B,C done can you do D,E,F Also can you check my solutions please. Thank...
I got A,B,C done can you do D,E,F
Also can you check my solutions please. Thank you ?
Question 1 - Consider an unit feedback system whose open-loop transfer function is G(s)-k/ ((s + 1)(s 2 +4s 25)) A. Draw Bode plot of the open-loop system for k-75 B. Calculate the phase and magnitude of G(s) at 1 rad/s for k 75 C. Determine the cross-over frequency, and the phase and gain margins for k-75 (14 marks D. What is...
these are useful formjlas to solve this problem please show all work! thank you 2.) Design...
these are useful formjlas to solve this problem
please show all work! thank you
2.) Design compensator for zero steady-state error with 10% overshoot and 0.4s of Peak time for the open loop transfer function G specified below. Sketch the comparison between uncompensated and compensated responses. Also compare their root locus. Clearly mention the improvements achieved after compensation. (50 points = 10 pts for analyzing uncompensated system+5 pts for identifying controller type+25 pts for controller design+5 pts for response comparison+5...
Problem 2 Wis) R(s) U(s) Gol (s) D a (s) E(s) H(s) Given a system as in the diagram above, use MATLAB to solve the problems: Assume we want the closed-loop system rise time to be t, 0.18 sec S + Z H(...
Problem 2 Wis) R(s) U(s) Gol (s) D a (s) E(s) H(s) Given a system as in the diagram above, use MATLAB to solve the problems: Assume we want the closed-loop system rise time to be t, 0.18 sec S + Z H(s) 1 Gpl)s(s+)et s(s 1) s + p a) Assume W(s)-0. Draw the root locus of the system assuming compensator consists only of the adjustable gain parameter K, i.e. Dct (s) Determine the approximate range of values of...
I want the answer for Part B I have the answer for Part A-Q1 I uploaded it 2 H I F ua 212 < > 0.5% on Y; 4Ω Fig...
I want the answer for Part B I have the answer for Part
A-Q1 I uploaded it
2 H I F ua 212 < > 0.5% on Y; 4Ω Figure 1 PART A: MATHEMATICAL MODEL AND TIME DOMAIN ANALYSIS (5%) 1) For the circuit of Figure 1, determine the transfer function relating the output voltage (s) to the input voltage V(s). Assuming zero initial condition, obtain the output response vo(t) to an input step with 6V amplitude, that is vi(t)6...
. Question 1 (40 marks) This question asks you to demonstrate your understanding of the following...
. Question 1 (40 marks) This question asks you to demonstrate your understanding of the following learning objectives LO 1.6 Express the Laplace Transform of common mathematical functions and linear ordinary differential equations using both first principles and mathematical tables. LO 1.7 Construct transfer functions for linear dynamic systems from (i) differential equations and (ii) reduction of block diagrams. LO1.8 Determine the time response of a Linear SISO system to an arbitrary input and having arbitrary initial conditions. LO 1.9...
Please solve part b and c and d !!
Consider the closed loop system shown in Figure 4. The root locus of that system is shown in Figure 5 (s+40s+8) R(s) Y(s) Figure 4 System block diagram of Problem 4 a) On the root locus plot, sketch the region of possible roots of the dominant closed-loop poles such that the system response to a unit step has the following time domain specifications. [5] i. Damping ratio, 20.76 ii. Natural frequency,....
PID controller: KG (5) - K(s’+1.55 +0.5) Plant: G (s)=- 1 (20s +1)(10s +1)(0.5s +1) For this control system, do the following tasks. Advice: Before you start, it is advised that you convert G,(s) to a standard form so that the leading coefficients of the denominator polynomials become 1 (without altering the overall transfer function). (1) Plot the root locus for 0 <K<using a computer tool, e.g., Matlab tools such as rlocus(), rltool() or any appropriate computer tools. Also, read...
I got A,B,C done can you do D,E,F
Also can you check my solutions please. Thank you ?
Question 1 - Consider an unit feedback system whose open-loop transfer function is G(s)-k/ ((s + 1)(s 2 +4s 25)) A. Draw Bode plot of the open-loop system for k-75 B. Calculate the phase and magnitude of G(s) at 1 rad/s for k 75 C. Determine the cross-over frequency, and the phase and gain margins for k-75 (14 marks D. What is...
these are useful formjlas to solve this problem
please show all work! thank you
2.) Design compensator for zero steady-state error with 10% overshoot and 0.4s of Peak time for the open loop transfer function G specified below. Sketch the comparison between uncompensated and compensated responses. Also compare their root locus. Clearly mention the improvements achieved after compensation. (50 points = 10 pts for analyzing uncompensated system+5 pts for identifying controller type+25 pts for controller design+5 pts for response comparison+5...
Problem 2 Wis) R(s) U(s) Gol (s) D a (s) E(s) H(s) Given a system as in the diagram above, use MATLAB to solve the problems: Assume we want the closed-loop system rise time to be t, 0.18 sec S + Z H(s) 1 Gpl)s(s+)et s(s 1) s + p a) Assume W(s)-0. Draw the root locus of the system assuming compensator consists only of the adjustable gain parameter K, i.e. Dct (s) Determine the approximate range of values of...
I want the answer for Part B I have the answer for Part
A-Q1 I uploaded it
2 H I F ua 212 < > 0.5% on Y; 4Ω Figure 1 PART A: MATHEMATICAL MODEL AND TIME DOMAIN ANALYSIS (5%) 1) For the circuit of Figure 1, determine the transfer function relating the output voltage (s) to the input voltage V(s). Assuming zero initial condition, obtain the output response vo(t) to an input step with 6V amplitude, that is vi(t)6...
. Question 1 (40 marks) This question asks you to demonstrate your understanding of the following learning objectives LO 1.6 Express the Laplace Transform of common mathematical functions and linear ordinary differential equations using both first principles and mathematical tables. LO 1.7 Construct transfer functions for linear dynamic systems from (i) differential equations and (ii) reduction of block diagrams. LO1.8 Determine the time response of a Linear SISO system to an arbitrary input and having arbitrary initial conditions. LO 1.9...
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