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For the block diagram of a feedback control system that is shown in Figure Q1 below,...
In the block diagram of the feedback control system shown in figure below, Gp(s) is the...
In the block diagram of the feedback control system shown in figure below, Gp(s) is the transfer function of a process, R(s) is reference input, and A(s) and H(s) represent controllers. N(S) R(s) Gp(s) Process A(s) H(s) = _100_ , and H(s)-1 / GAS). Let Gs)-A(S)5.and Find the steady state value of the response C(t), when N(t) = R(t) = unit-step function. Is this also the maximum value attained by the response? Justify your answers. (s2+2s+4)
1. (30 points) The block diagram of a machine-tool control system is shown in Figure 1. (a) (10 p...
1. (30 points) The block diagram of a machine-tool control system is shown in Figure 1. (a) (10 points) Determine the transfer function H(s) = Y(s)/R(s) (b) (10 points) Determine the sensitivity S (c) (10 points) For 1
Solve 2.8 Please brake force on each wheel [15].A block diagram model of a brake control system is shown in Figure E...
Solve 2.8 Please
brake force on each wheel [15].A block diagram model of a brake control system is shown in Figure E2.9, where F(s) and FR(S) are the braking force of the front and rear wheels, respectively, and R(s) is the desired automobile response on an icy road. Find F(s)/R(s) E28 A control engineer, N. Minorsky, designed an inno- vative ship steering system in the 1930s for the US 2 Navy. The system is represented by the block diagram shown...
automobile uses electronic feedback to control au brake force on each wheel [15].A block of a brake control system...
automobile uses electronic feedback to control au brake force on each wheel [15].A block of a brake control system is shown where F(s) and Fa(s) front and rear wheels, respectively desired automobile response on an F()R(s) level of light. A control engineer, N. Minorsky, designed an inno- vative ship steering system in the 1930s for the U.S Navy. The system is represented by the block diagram shown in Figure E2.8, where Y(s) is the ship's course, R(s) is the desired...
5. A block diagram of a control system is shown in Figure 3. [10 marks] (a)...
5. A block diagram of a control system is shown in Figure 3. [10 marks] (a) Find the transfer function of the control system. (b) Assign three poles of the system to -6, -8 and -7 by using time domain full-state feedback control design techniques. 10 marks] 10 15
4 (a) Based on the block diagram for a control system (Figure Q4(a) below) determine the...
4 (a) Based on the block diagram for a control system (Figure Q4(a) below) determine the transfer function between the error and the set point, E(s)/R(s) (8 marks) R(s)+ c(p) m(s) Figure Q4(a) Figure Q4(b) below shows two different control strategies for a continuous stirred tank reactor (CSTR). The reaction A → B is exothermic and the heat generated is removed by the coolant flowing through the jacket. It is assumed the flowrate of the reactor feed is fixed. Two...
In the figure below given is the block diagram representation of the DC motor position control sy...
In the figure below given is the block diagram representation of the DC motor position control system with a combined unity feedback and rate (tachometer) feedback. 2. C(s) R(s) Kp 0.25s+1 s+1 Kv Determine the characteristic polynomial of the closed loop transfer function Using Routh criterion, determine the range for Kp and Kv which make the closed loop system stable. Draw the admissible region for stability on Kv versus Kp plane.
In the figure below given is the block diagram...
Problem 1: Consider the block functional diagram of the satellite attitude control system shown in Figure...
Problem 1: Consider the block functional diagram of the satellite attitude control system shown in Figure (a), here below. The output of this system exhibits continued oscillations and is not desirable. This system can be improved by using a tachometer feedback. Ki, as shown in Figure (b). Assuming that = 4, using block diagram algebra and theory of time performance specifications for second order systems, please, compute: (1) the value of the gain K such that closed loop transfer function...
Question 10 10 pts The block diagram of a feedback control system is shown below. Given...
Question 10 10 pts The block diagram of a feedback control system is shown below. Given a=2.2, b=3, c=2.1, H=5 above which value of K will the system become unstable? R(S) к 1 C(s) S + a S2 + b + c
Problem 1: Steady-state error analvsis (a) A block diagram of a feedback control system is given ...
The Class Name is: MAE 318 System Dynamics and Control I
Problem 1: Steady-state error analvsis (a) A block diagram of a feedback control system is given below. Assuming that the tunable constant Khas a value that makes this closed-loop system stable, find the steady-state error of the closed-loop system for (a a step reference input with amplitude R, r(t)- R u(t) (ii) a ramp reference input with slope R, r(t) = Rt-us(t) R(s) Y(s) (s+2)(s +5) (b) A block...
In the block diagram of the feedback control system shown in figure below, Gp(s) is the transfer function of a process, R(s) is reference input, and A(s) and H(s) represent controllers. N(S) R(s) Gp(s) Process A(s) H(s) = _100_ , and H(s)-1 / GAS). Let Gs)-A(S)5.and Find the steady state value of the response C(t), when N(t) = R(t) = unit-step function. Is this also the maximum value attained by the response? Justify your answers. (s2+2s+4)
1. (30 points) The block diagram of a machine-tool control system is shown in Figure 1. (a) (10 points) Determine the transfer function H(s) = Y(s)/R(s) (b) (10 points) Determine the sensitivity S (c) (10 points) For 1
Solve 2.8 Please
brake force on each wheel [15].A block diagram model of a brake control system is shown in Figure E2.9, where F(s) and FR(S) are the braking force of the front and rear wheels, respectively, and R(s) is the desired automobile response on an icy road. Find F(s)/R(s) E28 A control engineer, N. Minorsky, designed an inno- vative ship steering system in the 1930s for the US 2 Navy. The system is represented by the block diagram shown...
automobile uses electronic feedback to control au brake force on each wheel [15].A block of a brake control system is shown where F(s) and Fa(s) front and rear wheels, respectively desired automobile response on an F()R(s) level of light. A control engineer, N. Minorsky, designed an inno- vative ship steering system in the 1930s for the U.S Navy. The system is represented by the block diagram shown in Figure E2.8, where Y(s) is the ship's course, R(s) is the desired...
5. A block diagram of a control system is shown in Figure 3. [10 marks] (a) Find the transfer function of the control system. (b) Assign three poles of the system to -6, -8 and -7 by using time domain full-state feedback control design techniques. 10 marks] 10 15
4 (a) Based on the block diagram for a control system (Figure Q4(a) below) determine the transfer function between the error and the set point, E(s)/R(s) (8 marks) R(s)+ c(p) m(s) Figure Q4(a) Figure Q4(b) below shows two different control strategies for a continuous stirred tank reactor (CSTR). The reaction A → B is exothermic and the heat generated is removed by the coolant flowing through the jacket. It is assumed the flowrate of the reactor feed is fixed. Two...
In the figure below given is the block diagram representation of the DC motor position control system with a combined unity feedback and rate (tachometer) feedback. 2. C(s) R(s) Kp 0.25s+1 s+1 Kv Determine the characteristic polynomial of the closed loop transfer function Using Routh criterion, determine the range for Kp and Kv which make the closed loop system stable. Draw the admissible region for stability on Kv versus Kp plane.
In the figure below given is the block diagram...
Problem 1: Consider the block functional diagram of the satellite attitude control system shown in Figure (a), here below. The output of this system exhibits continued oscillations and is not desirable. This system can be improved by using a tachometer feedback. Ki, as shown in Figure (b). Assuming that = 4, using block diagram algebra and theory of time performance specifications for second order systems, please, compute: (1) the value of the gain K such that closed loop transfer function...
Question 10 10 pts The block diagram of a feedback control system is shown below. Given a=2.2, b=3, c=2.1, H=5 above which value of K will the system become unstable? R(S) к 1 C(s) S + a S2 + b + c
The Class Name is: MAE 318 System Dynamics and Control I
Problem 1: Steady-state error analvsis (a) A block diagram of a feedback control system is given below. Assuming that the tunable constant Khas a value that makes this closed-loop system stable, find the steady-state error of the closed-loop system for (a a step reference input with amplitude R, r(t)- R u(t) (ii) a ramp reference input with slope R, r(t) = Rt-us(t) R(s) Y(s) (s+2)(s +5) (b) A block...
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