Answered: Subject: Feedback and Control System… | bartleby

Subject: Feedback and Control System Draw the Block Diagram of the following: 2. The following very simplified model of the biological mechanism regulating human arterial blood pressure is an example of a feedback control system. A well-regulated pressure must be maintained in the blood vessels (arteries, arterioles, and capillaries) supplying the tissues, so that blood flow is adequately maintained. This pressure is usually measured in the aorta (an artery) and is called the blood pressure p. It is not constant and normally has a range of 70-130 mm of mercury (mm Hg) in adults. Let us assume that p is equal to 100 mm Hg (on the average) in a normal individual. A fundamental model of circulatory physiology is the following equation for arterial blood pressure: p = Qp Example:

Introductory Circuit Analysis (13th Edition)

Introductory Circuit Analysis (13th Edition)

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ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

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Subject: Feedback and Control System
Draw the Block Diagram of the following:
2. The following very simplified model of the biological mechanism regulating human arterial blood pressure is an example of a feedback control system.

A well-regulated pressure must be maintained in the blood vessels (arteries, arterioles, and capillaries) supplying the tissues, so that blood flow is adequately maintained. This pressure is usually measured in the aorta (an artery) and is called the blood pressure p. It is not constant and normally has a range of 70-130 mm of mercury (mm Hg) in adults. Let us assume that p is equal to 100 mm Hg (on the average) in a normal individual.

A fundamental model of circulatory physiology is the following equation for arterial blood pressure:

p = Qp

Example:

Reference
Input
(Satpoint)
Actuating
Signal
Control
Elements
Feedback Signal
Disturbance
Manipulated
Variable
Feedback
Elements
Plant
Figure 8 Feedback Control System Block Diagram
Controlled
Variable
(Output)

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Q2 The block diagram in figure Q2 shows a plant G„(s) controlled by a controller G.(s) using a unity negative feedback loop. R(s), C(s) Ge(s) Gp(s) Figure Q2 The dynamics of the plant are described by the trans fer function 1 Gp(s) = 2s2 + s + 4 If the controller applies proportional action, find the value of gain K, that results in a steady state error of 4% for a unit step input. (a) (b) With proportional gain maintained at the same value from part (a), derivative action is added to the controller. Calculate the value of gain Ka which gives an overall system damping ratio of 0.8. (c) The controller is redesigned with new gains so that the system has a settling time of 2s and maximum overshoot of 7.5% in response to a unit step input. Find the new values of K, and Ka.
B) Discuss the influence of the adding pole / zero to the system. Q4. Consider a unity feedback control system with a forward T.F : K G(S) (S+3)(S+5) Sketch the root locus plot. Then, determine the range of values of K so that the system is over damped, critical damped, under damped and the range of K for stability.

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