Please show all work and write neatly so I can understand how to
do this on my own. Thank you. 
(e) For what input the system will have constant steady-state error. (d) for the unit input in item (c) calculate the constant steady-state error.(Use bode plot to calculate the error.)
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Please show all work and write neatly so I can understand how to do this on my own. Thank you. The transfer function of the given physical system is 2500 Gp(s)- P21000 The physical system is controll...
Please show all work and write neatly so I can understand how to do this on my own. Thank you. The transfer function of the given physical system is 2500 Gp(s)- P21000 The physical system is controll...
Please show all work and write neatly so I can understand how to
do this on my own. Thank you.
The transfer function of the given physical system is 2500 Gp(s)- P21000 The physical system is controlled with a unity-feedback system shown below, E(s) R(s) + (a) Draw the bode plot of open-loop transfer function when K-1. (b) Use bode plot of open-loop transfer function to determine the type of system (do not use transfer function)
The transfer function of...
The transfer function of the given physical system is 2500 Gp(s)-T-1000 Part 3 1. Frequency response (a) Draw the bode...
The transfer function of the given physical system is 2500 Gp(s)-T-1000 Part 3 1. Frequency response (a) Draw the bode plot of open-loop transfer function when K (b) Use bode plot of open-loop transfer function to determine the type of system (do not use transfer function) (c) For what input the system will have constant steady-state error (d) for the unit input in item (c) calculate the constant steady-state error.(Use bode plot to calculate the error.) (e) Design a lead...
For the simulink part i just meed to see a snapshot of the system model and an ouput. Must be for the tracking sustem design in B. For be please show all work and write neatly so i can learn to...
For the simulink part i just meed to see a snapshot of the
system model and an ouput. Must be for the tracking sustem design
in B. For be please show all work and write neatly so i can learn
to do this on my own.
Please show all work so I understand how to do this on my own. Write neatly please. Thank you in advance. The transfer function of the given physical system is 2500 Gp(s)1000 The physical...
The transfer function of the given physical system is Gp(s)-1000 The physical system is controlle...
The transfer function of the given physical system is Gp(s)-1000 The physical system is controlled with a unity-feedback system shown below, R(s) + Where Ge is the controller transfer function 3. Lead/Lag Compensator (a) Design a compensator such that the settling time of the compensated system T < 0.02 sec (Use 5% definition), and maximum overshoot of the compensated system is Mp 20%. Clearly explain all your steps. (b) Build a simulink model and use the compensator you designed above....
Problem 3 A unity feedback system has the loop transfer function G(s) = Kata) s(s +...
Problem 3 A unity feedback system has the loop transfer function G(s) = Kata) s(s + (a) Find the breakway and entry points on the real axis. (b) Find the gain and the roots when the real part of the complex roots is located at -2 (c) Sketch the root locus. Problem 4 The forward path G(s) of a unity feedback system with input R(s) and output Y (s) is given by G(o) 106I) (a) What is the type of...
A unity feedback system with the forward transfer function G(s)=K/(s+1)(s+3)(s+6) is operating wi...
A unity feedback system with the forward transfer function
G(s)=K/(s+1)(s+3)(s+6) is operating with a closed-loop step
response that has 15% overshoot. Do the following:
a) Evaluate the steady-state error for a unit step input
b) Design a PI control to reduce the steady-state error to zero
without affecting its transient response
c) Evaluate the steady-state error and overshoot for a unit step
input to your compensated system
A unity feedback system with the forward transfer function G(s) is operating with...
Neatly shown work please! The transfer function of a linear time-invariant system is given as s...
Neatly shown work please!
The transfer function of a linear time-invariant system is given as s +2 H (s) = s +2s +5 The input signal xt)-Acos(a+presul y, (1) = 6 cos(1 + 45) . Find A, a, , and Po in the steady-state response °
1. A unity feedback system with its forward transfer function G(s) - K(s+a)/s(s+B) is to be...
1. A unity feedback system with its forward transfer function G(s) - K(s+a)/s(s+B) is to be designed to meet the following requirements: (1) the steady-state error for a unit ramp input equals to 0.1 and (2) the closed-loop poles will be located at -1 + j1. Find K, a, and B in order to meet the specifications. (12 points) 2. Given a unity feedback system with its forward transfer function G(s) shown below: s" (s +a) Find the values of...
Consider the unity feedback system shown below R(s) C(s) Gp(s) 5(s+6 with G,(6)(s +2)(s+25) You are...
Consider the unity feedback system shown below R(s) C(s) Gp(s) 5(s+6 with G,(6)(s +2)(s+25) You are given that s+27s +55s+30 is a stable polynomial. a. What is the system type? For the questions below (in this Problem), set K-1 b. Determine the error constants Ko, K, and K, (also known as K,K, and K, c. Determine the steady-state errors eo, ei, and e2 (also known as epey, and e.) d. What is the steady-state error if the input is 5tu(t)?
Consider the transfer function of a DC motor given by G(s) = 1 / s(s+2) 3. Consider the transfer function of a DC motor...
Consider the transfer function of a DC motor given by G(s) = 1 /
s(s+2)
3. Consider the transfer function of a DC motor given by 1 G(s) s (s2) The objective of this question is to consider the problem of control design for this DC motor, with the feedback control architecture shown in the figure below d(t r(t) e(t) e(t) C(s) G(s) Figure 4: A feedback control system (a) Find the magnitude and the phase of the frequency response...
Please show all work and write neatly so I can understand how to
do this on my own. Thank you.
The transfer function of the given physical system is 2500 Gp(s)- P21000 The physical system is controlled with a unity-feedback system shown below, E(s) R(s) + (a) Draw the bode plot of open-loop transfer function when K-1. (b) Use bode plot of open-loop transfer function to determine the type of system (do not use transfer function)
The transfer function of...
The transfer function of the given physical system is 2500 Gp(s)-T-1000 Part 3 1. Frequency response (a) Draw the bode plot of open-loop transfer function when K (b) Use bode plot of open-loop transfer function to determine the type of system (do not use transfer function) (c) For what input the system will have constant steady-state error (d) for the unit input in item (c) calculate the constant steady-state error.(Use bode plot to calculate the error.) (e) Design a lead...
For the simulink part i just meed to see a snapshot of the
system model and an ouput. Must be for the tracking sustem design
in B. For be please show all work and write neatly so i can learn
to do this on my own.
Please show all work so I understand how to do this on my own. Write neatly please. Thank you in advance. The transfer function of the given physical system is 2500 Gp(s)1000 The physical...
The transfer function of the given physical system is Gp(s)-1000 The physical system is controlled with a unity-feedback system shown below, R(s) + Where Ge is the controller transfer function 3. Lead/Lag Compensator (a) Design a compensator such that the settling time of the compensated system T < 0.02 sec (Use 5% definition), and maximum overshoot of the compensated system is Mp 20%. Clearly explain all your steps. (b) Build a simulink model and use the compensator you designed above....
Problem 3 A unity feedback system has the loop transfer function G(s) = Kata) s(s + (a) Find the breakway and entry points on the real axis. (b) Find the gain and the roots when the real part of the complex roots is located at -2 (c) Sketch the root locus. Problem 4 The forward path G(s) of a unity feedback system with input R(s) and output Y (s) is given by G(o) 106I) (a) What is the type of...
A unity feedback system with the forward transfer function
G(s)=K/(s+1)(s+3)(s+6) is operating with a closed-loop step
response that has 15% overshoot. Do the following:
a) Evaluate the steady-state error for a unit step input
b) Design a PI control to reduce the steady-state error to zero
without affecting its transient response
c) Evaluate the steady-state error and overshoot for a unit step
input to your compensated system
A unity feedback system with the forward transfer function G(s) is operating with...
Neatly shown work please!
The transfer function of a linear time-invariant system is given as s +2 H (s) = s +2s +5 The input signal xt)-Acos(a+presul y, (1) = 6 cos(1 + 45) . Find A, a, , and Po in the steady-state response °
1. A unity feedback system with its forward transfer function G(s) - K(s+a)/s(s+B) is to be designed to meet the following requirements: (1) the steady-state error for a unit ramp input equals to 0.1 and (2) the closed-loop poles will be located at -1 + j1. Find K, a, and B in order to meet the specifications. (12 points) 2. Given a unity feedback system with its forward transfer function G(s) shown below: s" (s +a) Find the values of...
Consider the unity feedback system shown below R(s) C(s) Gp(s) 5(s+6 with G,(6)(s +2)(s+25) You are given that s+27s +55s+30 is a stable polynomial. a. What is the system type? For the questions below (in this Problem), set K-1 b. Determine the error constants Ko, K, and K, (also known as K,K, and K, c. Determine the steady-state errors eo, ei, and e2 (also known as epey, and e.) d. What is the steady-state error if the input is 5tu(t)?
Consider the transfer function of a DC motor given by G(s) = 1 /
s(s+2)
3. Consider the transfer function of a DC motor given by 1 G(s) s (s2) The objective of this question is to consider the problem of control design for this DC motor, with the feedback control architecture shown in the figure below d(t r(t) e(t) e(t) C(s) G(s) Figure 4: A feedback control system (a) Find the magnitude and the phase of the frequency response...
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