Homework Answers
Request Answer!
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
Add Answer to:
03. (a) Consider the block diagram shown in Figure 3.1, and assume G(s)= 3. G,(s) and...
1. Consider the unity feedback system shown in figure 1 with G(S) -2sti a) Determine the...
1. Consider the unity feedback system shown in figure 1 with G(S) -2sti a) Determine the closed loop transfer function TF(s) γ(s) R(s) What are the poles and zeros of TF1(s)? [2 marks] b) For TF(s), calculate the DC gain, natural frequency and damping ratio. Classify TF1(s) as underdamped overdamped, critically damped or undamped [3 marks] c) Use the initial value theorem and final value theorem to determine the initial value (Mo) and final value (M) of the [2 marks]...
Question 8 1 pts Figure 5.42 Controller Process G (s) Y(s) R(s) G(s) Block diagram for...
Question 8 1 pts Figure 5.42 Controller Process G (s) Y(s) R(s) G(s) Block diagram for the Skills Check. Consider the block diagram of the control system shown in Figure 5.42 in Problems 8 and 9 with the loop transfer function K L(s) G,(s)G(s) s(s+10) Find the value of K so that the system provides an optimum ITAE response. OK= 1.10 K 12.56 K= 51.02 K = 104.7
Question 8 1 pts Figure 5.42 Controller Process G (s) Y(s) R(s)...
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
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)
R E UA Given the block diagram as shown, R and D are inputs and G,...
R E UA Given the block diagram as shown, R and D are inputs and G, G, and H, are transfer functions. a) Using only the block diagram reduction G G method", find the transfer function C/R in terms of G, G, and H. H, b) Using only the block diagram reduction method*, find the transfer function E/D in terms of G, G, and Hz. c) Using either the block diagram reduction method* or the equation method, find the transfer...
Given the following system, where Gs(s) - -e2) Given the following system, where Gc(s) S+3 3s++2)...
Given the following system, where Gs(s) - -e2) Given the following system, where Gc(s) S+3 3s++2) and H(s)s R(S) . Gc(s) G(s) Y(s) SOLVE IN MATLAB CODE ONLY Obtain the transfer function of the system above. Find zeros, poles, and gain of the transfer function and plot zeros and poles. Rewrite the transfer function using the partial fraction expansion. Graph the Step response. Graph the impulse response.
Question 3 a) Reduce the block diagram in Figure 3 to a single block with the...
Question 3 a) Reduce the block diagram in Figure 3 to a single block with the overall tra (10 marks) function. H2(s) Figure 3: A block diagram comprising multiple subsystems and controllers b) For the system in Figure 4, assume that the plant has the following transfer function: If the controller in Figure 4 is proportional-only, determine the following: (2 marks) i) The system type. i) The steady-state error, es, if the reference signal, R(s) is a unit step input....
Control engineering subject Hz(s) Y(s) H (s) H3(s) Figure 1: Block diagram Simplify the block diagram...
Control engineering subject
Hz(s) Y(s) H (s) H3(s) Figure 1: Block diagram Simplify the block diagram shown in Figure 1. Then, obtain the transfer function relating Y(s) and X(S). (5 Marks)
Question 3 (30 marks) Consider the digital filter structure shown in the below figure: x[n yIn] 3 (a) Transform the giv...
Question 3 (30 marks) Consider the digital filter structure shown in the below figure: x[n yIn] 3 (a) Transform the given block diagram to the transposed direct form II one. 2 (b) Determine the difference-equation representation of the system 4 (c) Find the transfer function for this causal filter and state the pole-zero pattern (d) Determine the impulse response of the system 2 (e) For what values of k is the system stable? (f) Determine yln if k 1 and...
Please solve both parts a and b step-by-step using the block reduction method ONLY. Q4 a)...
Please solve both parts a and b step-by-step using the block
reduction method ONLY.
Q4 a) (1 mark) The figure below shows a block diagram of a control system, obtain the transfer function [Y(s)/R(s)]N=0 N(S) R(5) Y(s) Gy(s) Ge(s) H(s) b) (2 marks) The figure below shows a closed-loop system with a reference input and disturbance input. Obtain transfer functions C(s)/R(s) and C(s)/D(S) of the system shown. Use block diagram reduction method only. GF D(S) R(S) Es) U(5) Cs) GC...
1. Consider the unity feedback system shown in figure 1 with G(S) -2sti a) Determine the closed loop transfer function TF(s) γ(s) R(s) What are the poles and zeros of TF1(s)? [2 marks] b) For TF(s), calculate the DC gain, natural frequency and damping ratio. Classify TF1(s) as underdamped overdamped, critically damped or undamped [3 marks] c) Use the initial value theorem and final value theorem to determine the initial value (Mo) and final value (M) of the [2 marks]...
Question 8 1 pts Figure 5.42 Controller Process G (s) Y(s) R(s) G(s) Block diagram for the Skills Check. Consider the block diagram of the control system shown in Figure 5.42 in Problems 8 and 9 with the loop transfer function K L(s) G,(s)G(s) s(s+10) Find the value of K so that the system provides an optimum ITAE response. OK= 1.10 K 12.56 K= 51.02 K = 104.7
Question 8 1 pts Figure 5.42 Controller Process G (s) Y(s) R(s)...
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
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)
R E UA Given the block diagram as shown, R and D are inputs and G, G, and H, are transfer functions. a) Using only the block diagram reduction G G method", find the transfer function C/R in terms of G, G, and H. H, b) Using only the block diagram reduction method*, find the transfer function E/D in terms of G, G, and Hz. c) Using either the block diagram reduction method* or the equation method, find the transfer...
Given the following system, where Gs(s) - -e2) Given the following system, where Gc(s) S+3 3s++2) and H(s)s R(S) . Gc(s) G(s) Y(s) SOLVE IN MATLAB CODE ONLY Obtain the transfer function of the system above. Find zeros, poles, and gain of the transfer function and plot zeros and poles. Rewrite the transfer function using the partial fraction expansion. Graph the Step response. Graph the impulse response.
Question 3 a) Reduce the block diagram in Figure 3 to a single block with the overall tra (10 marks) function. H2(s) Figure 3: A block diagram comprising multiple subsystems and controllers b) For the system in Figure 4, assume that the plant has the following transfer function: If the controller in Figure 4 is proportional-only, determine the following: (2 marks) i) The system type. i) The steady-state error, es, if the reference signal, R(s) is a unit step input....
Control engineering subject
Hz(s) Y(s) H (s) H3(s) Figure 1: Block diagram Simplify the block diagram shown in Figure 1. Then, obtain the transfer function relating Y(s) and X(S). (5 Marks)
Question 3 (30 marks) Consider the digital filter structure shown in the below figure: x[n yIn] 3 (a) Transform the given block diagram to the transposed direct form II one. 2 (b) Determine the difference-equation representation of the system 4 (c) Find the transfer function for this causal filter and state the pole-zero pattern (d) Determine the impulse response of the system 2 (e) For what values of k is the system stable? (f) Determine yln if k 1 and...
Please solve both parts a and b step-by-step using the block
reduction method ONLY.
Q4 a) (1 mark) The figure below shows a block diagram of a control system, obtain the transfer function [Y(s)/R(s)]N=0 N(S) R(5) Y(s) Gy(s) Ge(s) H(s) b) (2 marks) The figure below shows a closed-loop system with a reference input and disturbance input. Obtain transfer functions C(s)/R(s) and C(s)/D(S) of the system shown. Use block diagram reduction method only. GF D(S) R(S) Es) U(5) Cs) GC...
Most questions answered within 3 hours.
-
3) What are the typical social structures in a global city?
asked 2 hours ago -
Luther Corporation
Consolidated Balance Sheet
December 31, 2019 and 2018 (in $ millions)
Assets
2019
2018...
asked 2 hours ago -
(Expected rate of return and risk) Carter Inc. is evaluating a
security. Calculate the investment’s expected...
asked 5 hours ago -
What specific indicators can point to lack of progress for
African Americans in American society?
asked 6 hours ago -
1-The Electrons in a beam are moving at 2.7×108 m/s in an
electric field of 15000...
asked 6 hours ago -
A gas tank is a vertical cylinder. It has a radius of 1m, a
height of...
asked 6 hours ago -
Accent Software faces the following conditions. All of these
support Accent’s use of a market-penetration pricing...
asked 7 hours ago -
A mathematically inclined friend emails you the following
instructions: "Meet me in the cafeteria the first...
asked 7 hours ago -
A monopoly sells in two countries . The demand curves in the two
countries are p1...
asked 8 hours ago -
A .15kg rubber ball is bounced off a wall. Before hitting the
wall, the ball moves...
asked 9 hours ago -
A manufacturing company preparing to build a new plant is
considering three potential locations for it....
asked 9 hours ago -
B. If compound Y has approximately the same values of solubility
in toluene as compound X,...
asked 10 hours ago