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3. (30 pts) A dynamic system is represented by the following third-order transfer funct transfer...
Closed-Notes, Closed-Book, No Internet. Perform independently. Formula Sheet on the following page. Consider the following system...
Closed-Notes, Closed-Book, No Internet. Perform independently. Formula Sheet on the following page. Consider the following system transfer function: 30(s + 4.1) G(S) = (52 +65 +25)(s + 4) The system output due to a unit step input, R(s) = 1/s is: 1.23 S 0.04 S +4 1.19s + 7.29 (s + 3)2 + 16 a. Is a second-order approximation valid for this system? Show why or why not. If a second-order approximation is valid, perform the following: b. Determine the...
6.24 The transfer function for a second-order system is 35+5 32+20s + 500 (a) Determine the...
6.24 The transfer function for a second-order system is 35+5 32+20s + 500 (a) Determine the impulsive response of the system. (b) Deter- mine the step response of the system. (e) Determine the 2 per- cent settling time. (d) Determine the 10-90 percent rise time. (e) Determine the percent overshoot of the step response. (f) Determine the peak time of the step response.
1. Consider a transfer function of a system 25 s? + 4s + 25 a) Simulation...
1. Consider a transfer function of a system 25 s? + 4s + 25 a) Simulation i. Using any simulation software package, plot the poles on the s-plane. ii. Using unit step input, plot the transient response when there is no additional third pole to the system. iii. Using unit step input, plot the transient response when there is an additional third pole occur at -200, -20, -10, and -2. Plot them in a single graph. Normalize all the plots...
Question 3 A high quality telescope is represented using a transfer function, shown in Figure 3. It needs to follow a trajectory described by input E(s) exactly in order to track a star. The outp...
Question 3 A high quality telescope is represented using a transfer function, shown in Figure 3. It needs to follow a trajectory described by input E(s) exactly in order to track a star. The output C(s) is the angle of the telescope E(s) 7 C) Figure 3: A System expressed as a Transfer Function (a) Convert the system into state space form (b) Find the steady state error when a unity step input is applied. (c) Is your answer to...
Do only parts C and D 1. A second-order system has the following transfer function that...
Do only parts C and D
1. A second-order system has the following transfer function that describes its response: F(s)- s2 +as + 9 A. For a -3, calculate the following performance specifications of the system: Natural frequency (on) Damping ratio( Estimated rise time and settling time with ±5% change (tr, ts) Estimated overshoot (MP) . B. Label (a) ±5% range of steady state, (b) tr, (c) ts, and (d) MP on the step response curve below (You may also...
A second order system has the following poles -1.4 t 7.2 j , find the 2%...
A second order system has the following poles -1.4 t 7.2 j , find the 2% settling time. A second order system has the following poles -1.3 t 5 , if the steady state value is 26 find the peak value. The unit step response of a second order system is given by: y 1.5- 2.1 eWnt sin( 4 t + ¢) find the rise time. A second order system has the following poles -1.3 t 5 j , if...
please help to solve this. Thank you B1. Consider the second order system where damping ratio...
please help to solve this. Thank you
B1. Consider the second order system where damping ratio 3-0.6 and natural angular frequency Ww=5 rad/sec. find the rise time tr, peak time tp, maximum overshoot Mp, and settling time ts (2%) when the system is subjected to a unit-step input. I B2. Find the steady-state errors for inputs of 5 u(t), 5t u(t), and 5t.u(t) to the system shown in the following figure. The function u(t) is the unit step. R(S) +...
Question #4 (25 points): Consider the open loop system that has the following transfer function 1 G(S) = 10s+ 35 Us...
Question #4 (25 points): Consider the open loop system that has the following transfer function 1 G(S) = 10s+ 35 Using Matlab: a) Plot the step response of the open loop system and note the settling time and steady state 15 pts error. b) Add proportional control K 300 and simulate the step response of the closed loop 15 pts system. Note the settling time, %OS and steady state error. c) Add proportional derivate control Kp 300, Ko 10 and...
2- The following requirements are given for a second-order system that is described by the transfer...
2- The following requirements are given for a second-order system that is described by the transfer function s2+25Wnstwa Maximum overshoot: 5% <P.0.< 15% Settling time: 5s < 75% < 10s Peak time: tp < 2s (a) Describe and sketch the s-plane regions of the pole locations satisfying the requirements. (20pts) (b)Determine the largest and smallest possible peak time of a system with the poles satisfying the requirements. (10pts) Hints: Im(s) cos =-5 10, vi Res P.O.=100e 1-3 16 wn, tp
2. 25 pts Consider the system with transfer function G(s) = 10/(2 + 8s+25). and input...
2. 25 pts Consider the system with transfer function G(s) = 10/(2 + 8s+25). and input R(s) = 1/s. a. (5 pts) Find the steady state output coo). b. (5 pts) Find the maximum value Mpt for c(t). c. (5 pts) Find the rise time and peak time. d. (5 pts) Find the poles of G(s).
Closed-Notes, Closed-Book, No Internet. Perform independently. Formula Sheet on the following page. Consider the following system transfer function: 30(s + 4.1) G(S) = (52 +65 +25)(s + 4) The system output due to a unit step input, R(s) = 1/s is: 1.23 S 0.04 S +4 1.19s + 7.29 (s + 3)2 + 16 a. Is a second-order approximation valid for this system? Show why or why not. If a second-order approximation is valid, perform the following: b. Determine the...
6.24 The transfer function for a second-order system is 35+5 32+20s + 500 (a) Determine the impulsive response of the system. (b) Deter- mine the step response of the system. (e) Determine the 2 per- cent settling time. (d) Determine the 10-90 percent rise time. (e) Determine the percent overshoot of the step response. (f) Determine the peak time of the step response.
1. Consider a transfer function of a system 25 s? + 4s + 25 a) Simulation i. Using any simulation software package, plot the poles on the s-plane. ii. Using unit step input, plot the transient response when there is no additional third pole to the system. iii. Using unit step input, plot the transient response when there is an additional third pole occur at -200, -20, -10, and -2. Plot them in a single graph. Normalize all the plots...
Question 3 A high quality telescope is represented using a transfer function, shown in Figure 3. It needs to follow a trajectory described by input E(s) exactly in order to track a star. The output C(s) is the angle of the telescope E(s) 7 C) Figure 3: A System expressed as a Transfer Function (a) Convert the system into state space form (b) Find the steady state error when a unity step input is applied. (c) Is your answer to...
Do only parts C and D
1. A second-order system has the following transfer function that describes its response: F(s)- s2 +as + 9 A. For a -3, calculate the following performance specifications of the system: Natural frequency (on) Damping ratio( Estimated rise time and settling time with ±5% change (tr, ts) Estimated overshoot (MP) . B. Label (a) ±5% range of steady state, (b) tr, (c) ts, and (d) MP on the step response curve below (You may also...
A second order system has the following poles -1.4 t 7.2 j , find the 2% settling time. A second order system has the following poles -1.3 t 5 , if the steady state value is 26 find the peak value. The unit step response of a second order system is given by: y 1.5- 2.1 eWnt sin( 4 t + ¢) find the rise time. A second order system has the following poles -1.3 t 5 j , if...
please help to solve this. Thank you
B1. Consider the second order system where damping ratio 3-0.6 and natural angular frequency Ww=5 rad/sec. find the rise time tr, peak time tp, maximum overshoot Mp, and settling time ts (2%) when the system is subjected to a unit-step input. I B2. Find the steady-state errors for inputs of 5 u(t), 5t u(t), and 5t.u(t) to the system shown in the following figure. The function u(t) is the unit step. R(S) +...
Question #4 (25 points): Consider the open loop system that has the following transfer function 1 G(S) = 10s+ 35 Using Matlab: a) Plot the step response of the open loop system and note the settling time and steady state 15 pts error. b) Add proportional control K 300 and simulate the step response of the closed loop 15 pts system. Note the settling time, %OS and steady state error. c) Add proportional derivate control Kp 300, Ko 10 and...
2- The following requirements are given for a second-order system that is described by the transfer function s2+25Wnstwa Maximum overshoot: 5% <P.0.< 15% Settling time: 5s < 75% < 10s Peak time: tp < 2s (a) Describe and sketch the s-plane regions of the pole locations satisfying the requirements. (20pts) (b)Determine the largest and smallest possible peak time of a system with the poles satisfying the requirements. (10pts) Hints: Im(s) cos =-5 10, vi Res P.O.=100e 1-3 16 wn, tp
2. 25 pts Consider the system with transfer function G(s) = 10/(2 + 8s+25). and input R(s) = 1/s. a. (5 pts) Find the steady state output coo). b. (5 pts) Find the maximum value Mpt for c(t). c. (5 pts) Find the rise time and peak time. d. (5 pts) Find the poles of G(s).
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