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Design Information The process model Gp(s) and the design requirements for each design team are given...
Determine: 1. The transfer function C(s)/R(s). Also find the closed-loop poles of the system. 2. The...
Determine: 1. The transfer function C(s)/R(s). Also find the
closed-loop poles of the system. 2. The values of the undamped
natural frequency ωN and damping ratio ξ of the closed-loop poles.
3. The expressions of the rise time, the peak time, the maximum
overshoot, and the 2% settling time due to a unit-step reference
signal.
For the open-loop process with negative feedback R(S) Gp(S) C(s) H(s) 103 Go(s) = 1 , Gp(s)- s(s + 4) Determine: 1. The transfer function...
PD & PID controller design Consider a unity feedback system with open loop transfer function, G(s)...
PD & PID controller design Consider a unity feedback system with open loop transfer function, G(s) = 20/s(s+2)(8+4). Design a PD controller so that the closed loop has a damping ratio of 0.8 and natural frequency of oscillation as 2 rad/sec. b) 100 Consider a unity feedback system with open loop transfer function, aus. Design a PID controller, so that the phase margin of (S-1) (s + 2) (s+10) the system is 45° at a frequency of 4 rad/scc and...
Reinforcement Problem # 3 (30 pts.) A) Given For the open-loop process with negative feedback R(S)...
Reinforcement Problem # 3 (30 pts.) A) Given For the open-loop process with negative feedback R(S) C(s) Oc(s) Op(s) H(s) B) Determine Design the simplest controller (P, PI, PD or PID) capable to meet the required conditions: Gpls)..1 3 rad/s The system has negative feedback and H(s) -1. As part of the process, performjthe following steps 1) Justify selection of Gc(s) among the P, PI, PD or PID controllers. 2) Test the angular condition: Gc(s)Gp(s)H(180 3) Test the magnitude condition:...
Question 6 The open-loop transfer function G(s) of a control system is given as G(8)- s(s+2)(s +5...
Question 6 The open-loop transfer function G(s) of a control system is given as G(8)- s(s+2)(s +5) A proportional controller is used to control the system as shown in Figure 6 below: Y(s) R(s) + G(s) Figure 6: A control system with a proportional controller a) Assume Hp(s) is a proportional controller with the transfer function H,(s) kp. Determine, using the Routh-Hurwitz Stability Criterion, the value of kp for which the closed-loop system in Figure 6 is marginally stable. (6...
4.35 Consider the feedback control system with the plant transfer function G(s) = (5+0.1)(5+0.5) (a) Design...
4.35 Consider the feedback control system with the plant transfer function G(s) = (5+0.1)(5+0.5) (a) Design a proportional controller so the closed-loop system has damping of 5 = 0.707. Under what conditions on kp is the closed-loop system stable? (b) Design a PI controller so that the closed-loop system has no over- shoot. Under what conditions on (kp, kt) is the closed-loop system is stable? (©) Design a PID controller such that the settling time is less than 1.7 sec.
I have no more posting for this month, please solve these for me thanks 1. Given...
I have no more posting for this month, please solve these for me
thanks
1. Given the following unity feedback system where s+z s2 (s + 10) and the controller is a proportional controller Ge = K, do the following: a. If z = 2, find K so that the damped frequency of the oscillation of the transient response is 5 rad/s. b. The system is to be redesigned by changing the values of z and K. If the new...
urgent!! II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that: 1. The steady-...
urgent!!
II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that: 1. The steady- state error with respect to a unit ramp input is no more than 0.01; 2. Phase margin is approximately 40
II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that:...
Design Problems: (1) A robotic system is described by the transfer function P(s)=- 100 s(s +9.7)(s...
Design Problems: (1) A robotic system is described by the transfer function P(s)=- 100 s(s +9.7)(s + 51.2) Use the root locus method to design a lead controller that achieves a closed-loop step response with P.0.5 2.5 %, and a settling time T, < 0.25s (using the 2% criterion). Also, the steady-state error to a unit ramp should be ess < 0.15. (2) This system is open-loop unstable: P(S) = 500 (5 - 1)(s + 10) Using the root locus...
Design Project #1 : Design of PID Controller Design a PID controller so that the step...
Design Project #1 : Design of PID Controller Design a PID controller so that the step response of the following closed-loop system satisfy (settling time) 3sec, POS(% overshoot) 20%, and steady state tracking error (ess)<0. R(s) Y(s) K, ss +1 If you can reduce both settling time and overshoot, then it would be much better. To verify your answer, you should use Matlab simulink and show that your answer is correct in your report. Describe the detailed design procedure (as...
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...
Determine: 1. The transfer function C(s)/R(s). Also find the
closed-loop poles of the system. 2. The values of the undamped
natural frequency ωN and damping ratio ξ of the closed-loop poles.
3. The expressions of the rise time, the peak time, the maximum
overshoot, and the 2% settling time due to a unit-step reference
signal.
For the open-loop process with negative feedback R(S) Gp(S) C(s) H(s) 103 Go(s) = 1 , Gp(s)- s(s + 4) Determine: 1. The transfer function...
PD & PID controller design Consider a unity feedback system with open loop transfer function, G(s) = 20/s(s+2)(8+4). Design a PD controller so that the closed loop has a damping ratio of 0.8 and natural frequency of oscillation as 2 rad/sec. b) 100 Consider a unity feedback system with open loop transfer function, aus. Design a PID controller, so that the phase margin of (S-1) (s + 2) (s+10) the system is 45° at a frequency of 4 rad/scc and...
Reinforcement Problem # 3 (30 pts.) A) Given For the open-loop process with negative feedback R(S) C(s) Oc(s) Op(s) H(s) B) Determine Design the simplest controller (P, PI, PD or PID) capable to meet the required conditions: Gpls)..1 3 rad/s The system has negative feedback and H(s) -1. As part of the process, performjthe following steps 1) Justify selection of Gc(s) among the P, PI, PD or PID controllers. 2) Test the angular condition: Gc(s)Gp(s)H(180 3) Test the magnitude condition:...
Question 6 The open-loop transfer function G(s) of a control system is given as G(8)- s(s+2)(s +5) A proportional controller is used to control the system as shown in Figure 6 below: Y(s) R(s) + G(s) Figure 6: A control system with a proportional controller a) Assume Hp(s) is a proportional controller with the transfer function H,(s) kp. Determine, using the Routh-Hurwitz Stability Criterion, the value of kp for which the closed-loop system in Figure 6 is marginally stable. (6...
4.35 Consider the feedback control system with the plant transfer function G(s) = (5+0.1)(5+0.5) (a) Design a proportional controller so the closed-loop system has damping of 5 = 0.707. Under what conditions on kp is the closed-loop system stable? (b) Design a PI controller so that the closed-loop system has no over- shoot. Under what conditions on (kp, kt) is the closed-loop system is stable? (©) Design a PID controller such that the settling time is less than 1.7 sec.
I have no more posting for this month, please solve these for me
thanks
1. Given the following unity feedback system where s+z s2 (s + 10) and the controller is a proportional controller Ge = K, do the following: a. If z = 2, find K so that the damped frequency of the oscillation of the transient response is 5 rad/s. b. The system is to be redesigned by changing the values of z and K. If the new...
urgent!!
II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that: 1. The steady- state error with respect to a unit ramp input is no more than 0.01; 2. Phase margin is approximately 40
II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that:...
Design Problems: (1) A robotic system is described by the transfer function P(s)=- 100 s(s +9.7)(s + 51.2) Use the root locus method to design a lead controller that achieves a closed-loop step response with P.0.5 2.5 %, and a settling time T, < 0.25s (using the 2% criterion). Also, the steady-state error to a unit ramp should be ess < 0.15. (2) This system is open-loop unstable: P(S) = 500 (5 - 1)(s + 10) Using the root locus...
Design Project #1 : Design of PID Controller Design a PID controller so that the step response of the following closed-loop system satisfy (settling time) 3sec, POS(% overshoot) 20%, and steady state tracking error (ess)<0. R(s) Y(s) K, ss +1 If you can reduce both settling time and overshoot, then it would be much better. To verify your answer, you should use Matlab simulink and show that your answer is correct in your report. Describe the detailed design procedure (as...
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...
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