For the first figure please draw the functional block
diagram, please keep it simple no need to solve it with
functions
The second picture is an example of how the solution should look
like
Swer the Following Questions: uestion No. (1) in the past, control systems used a human operator as part of a closed-loop control system. Sketch the block diagram of the valve control system shown in Figure (1). Human Output operator Met Prook Fluid Valve flow Figure (1) Fluid-flow control Plant Actuster ContfullCr outPut Desired Braih ValVt Tan ES Fecd back
Homework Answers
Add Answer to:
For the first figure please draw the functional block
diagram, please keep it simple no need...
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...
Problem 2. (40 points) The following figure shows the block diagram of a feedback closed loop...
Problem 2. (40 points) The following figure shows the block diagram of a feedback closed loop control system. Ysp(s) - Es) | U(s) Y(s) S +5 1 Ge(s) Q"46:0) " ** 52_1 (a) Find the range of controller settings that yield stable closed-loop system for: (i) A proportional-only (P) controller. (ii) A proportional-integral (PI) controller. (b) For the PI control, modify the block diagram to eliminate proportional kick.
A1 A water heating system is represented by the block diagram shown in figure A1. The valve mixes hot and cold water to obtain the desired water temperature using an integral controller of gain K. Th...
A1 A water heating system is represented by the block diagram shown in figure A1. The valve mixes hot and cold water to obtain the desired water temperature using an integral controller of gain K. The water temperature is controlled by sensing the output temperature 0o and comparing with the desired temperature 0d. Write down an expression, in Bode form, for the open-loop frequency response function in terms of K and frequency o. Hence draw the open-loop Bode plot for...
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....
57. A common application of control systems is in regulating the temperature of a chemical process...
57. A common application of control systems is in regulating the temperature of a chemical process (Figure P6.13). The flow of a chemical reactant to a process is controlled by an actuator and valve. The reactant causes the temperature in the vat to change. This temperature is sensed and com- pared to a desired set-point temperature in a closed loop, where the flow of reactant is adjusted to yield the desired temperature. In Chapter 9, we will learn how a...
Thank You and Thumps Up. For the open loop system shown in the block diagram, sketch...
Thank You and Thumps Up. For the open loop system shown in the
block diagram, sketch the root-locus for the proportional control.
Design a controller using a pure zero to place the closed-loop
roots in the desired locations shown in the s-plane.
2 5
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...
PROBLEMS B-2-1. Simplify the block diagram shown in Figure 2-29 and obtain the closed-loop transfer function...
PROBLEMS B-2-1. Simplify the block diagram shown in Figure 2-29 and obtain the closed-loop transfer function C(s)/RS). B-2-2. Simplify the block diagram shown in Figure 2-30 and obtain the closed-loop transfer function C(s)/R(s). B-2-3. Simplify the block diagram shown in Figure 2-31 and obtain the closed-loop transfer function C(s)/R(S). G1 R(S) CS) Figure 2-29 Block diagram of a system. Figure 2-30 Block diagram of a system. Figure 2-31 Block diagram of a system.
The block Diagram illustrated represents a control system of position for a mechanism The entry rt)...
The block Diagram illustrated represents a control system of position for a mechanism The entry rt) in the desired position and the exit ct) is in the real position of the movement mechanisms. The parameters K1 and K2 are gains that can be ajusted. A) We would like to know the response of the closed loop control system with a step is characterized by this specification 1. percent overshoot is less than 5% 2. Peak Time is less than 0.5...
Question 2 (a) The vertical position, x(f), of the grinding wheel shown in Figure 3 is...
Question 2 (a) The vertical position, x(f), of the grinding wheel shown in Figure 3 is controlled by a closed-loop system. The input to the system is the desired depth of grind, and the output is the actual depth of grind. The difference between the desired depth and the actual depth drives the motor, resulting in a force applied to the work. This force results in a feed velocity for the grinding wheel x-axis servo motor y-axis servo motor x(t)...
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...
Problem 2. (40 points) The following figure shows the block diagram of a feedback closed loop control system. Ysp(s) - Es) | U(s) Y(s) S +5 1 Ge(s) Q"46:0) " ** 52_1 (a) Find the range of controller settings that yield stable closed-loop system for: (i) A proportional-only (P) controller. (ii) A proportional-integral (PI) controller. (b) For the PI control, modify the block diagram to eliminate proportional kick.
A1 A water heating system is represented by the block diagram shown in figure A1. The valve mixes hot and cold water to obtain the desired water temperature using an integral controller of gain K. The water temperature is controlled by sensing the output temperature 0o and comparing with the desired temperature 0d. Write down an expression, in Bode form, for the open-loop frequency response function in terms of K and frequency o. Hence draw the open-loop Bode plot for...
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....
57. A common application of control systems is in regulating the temperature of a chemical process (Figure P6.13). The flow of a chemical reactant to a process is controlled by an actuator and valve. The reactant causes the temperature in the vat to change. This temperature is sensed and com- pared to a desired set-point temperature in a closed loop, where the flow of reactant is adjusted to yield the desired temperature. In Chapter 9, we will learn how a...
Thank You and Thumps Up. For the open loop system shown in the
block diagram, sketch the root-locus for the proportional control.
Design a controller using a pure zero to place the closed-loop
roots in the desired locations shown in the s-plane.
2 5
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...
PROBLEMS B-2-1. Simplify the block diagram shown in Figure 2-29 and obtain the closed-loop transfer function C(s)/RS). B-2-2. Simplify the block diagram shown in Figure 2-30 and obtain the closed-loop transfer function C(s)/R(s). B-2-3. Simplify the block diagram shown in Figure 2-31 and obtain the closed-loop transfer function C(s)/R(S). G1 R(S) CS) Figure 2-29 Block diagram of a system. Figure 2-30 Block diagram of a system. Figure 2-31 Block diagram of a system.
The block Diagram illustrated represents a control system of position for a mechanism The entry rt) in the desired position and the exit ct) is in the real position of the movement mechanisms. The parameters K1 and K2 are gains that can be ajusted. A) We would like to know the response of the closed loop control system with a step is characterized by this specification 1. percent overshoot is less than 5% 2. Peak Time is less than 0.5...
Question 2 (a) The vertical position, x(f), of the grinding wheel shown in Figure 3 is controlled by a closed-loop system. The input to the system is the desired depth of grind, and the output is the actual depth of grind. The difference between the desired depth and the actual depth drives the motor, resulting in a force applied to the work. This force results in a feed velocity for the grinding wheel x-axis servo motor y-axis servo motor x(t)...
Most questions answered within 3 hours.
-
A z-score
communicates a raw score’s "relative standing"
under the normal curve in relation to:
asked 5 minutes ago -
An object is vibrating on a spring with the following equation
of motion:
?=(30 ??)cos((2?)/(160)?)
a)...
asked 4 minutes ago -
Vulcan Flyovers offers scenic overflights of Mount St. Helens,
the volcano in Washington State that explosively...
asked 7 minutes ago -
If organizations do not adapt fast enough and move incrementally
from the twentieth-century model to the...
asked 8 minutes ago -
A helium balloon with 2.5L of gas has a gauge pressure of 10,000
Pa. The balloon...
asked 12 minutes ago -
What is responsible for Jupiter's enormous magnetic field?
asked 27 minutes ago -
At the end of the year, a company offered to buy 5,000 units of
a product...
asked 29 minutes ago -
Implement C++ program for each of the following.
Let D = [-48, -14, -8, 0, 1,...
asked 49 minutes ago -
Consider a labor market in which LD = 400 – 4W and LS = 250 +...
asked 1 hour ago -
Let’s say you are teaching a typically-developing young child
how to eat with a spoon. Describe...
asked 46 minutes ago -
Ask Your Teacher A toy gun uses a spring to project a 5.6-g soft
rubber sphere...
asked 58 minutes ago -
*****DO NOT ANSWER THIS QUESTION IF YOU DON'T
KNOW*******
Question - PERSONAL DEVELOPMENT ESSAY and Detailed...
asked 1 hour ago