The forward-route transfer function is applied to the input of a negative unit feedback system as at the bottom, and the overrun rate is given as %OS=7.8% at the exit of the G(s) = (s + 2)? In this case, what is the natural frequency of the system? 22 - system. O A) 6.67 OB) 3.17 OC) 4.92 OD) 1.75

The forward-route transfer function is applied to the input of a negative unit feedback system as at the bottom, and the overrun rate is given as %OS=7.8% at the exit of the G(s) = (s + 2)? In this case, what is the natural frequency of the system? 22 - system. O A) 6.67 OB) 3.17 OC) 4.92 OD) 1.75

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter12: Power System Controls

Section: Chapter Questions

Problem 12.3P

See similar textbooks

Related questions

Q: for aunity feedback system with G(S) = k/s(s+1) (s+2) , k=0.1 , 5 ,10 using the ziegler nichols…

A: => According to Ziegler Nichols method -: Characteristic equation -: 1 + G(S) H(S) = 0 For k =…

Q: R(s) 10 C(s) K1 5 (s+2) K25 Consider the block diagram shown above 16/[s(s+4)]. (a) In the absence…

Q: Question : A unity feedback the system, the forward transfer function is given below. K(s+3)(s²+5)…

Q: Sketch the root locus for unity feedback system with following forward gain function: KG(S) =…

A: Write the given transfer function:-

Q: A system with unity feedback has an open-loop transfer function G(s) = K/[(TS + 1)s], where T is the…

Q: The overall transfer function for a unity feedback system is G(s) = 4/(s^2+4s+4).Which of the…

A: In this question we need to verify the given statement.

Q: k G(S) s(s + 1)(s + 2)

Q: For a plant with transfer function G_(s) = s+8 Calculate the proportional controller gain Kp that…

A: Controller: Controller is a device which minimize the difference between process value and desired…

Q: The open loop transfer function of unity feedback system is given by G(s) =- K (s+1)(s+2)(s+3) Using…

Q: Find the transfer function Vo/Vi for the circuit shown if Zf is the equivalent impedance of the…

A: The op-amp is drawn as below, According to the concept of virtual ground,

Q: The forward-route transfer function is applied to the input of a negative unit feedback system as at…

Q: The forward route transfer function is applied to the input of a negative unit feedback system as at…

A: Control systems are represented by transfer function. This can be written in both time domain and…

Q: 9) Consider a unity feedback system having, an open-loop transfer function K G(s) = s(0.2s +…

Q: The forward-route transfer function applies the unit digit function to the input of a negative unit…

A: The system is desired to produce desired time and frequency domain characteristics. The system has…

Q: Consider a closed-loop system with negative feedback. The feedback transfer function is H(s) = and…

A: RH criterion is very important to find the stability of a closed loop system using OLTF and feedback…

Q: The forward route transfer function is applied to the input of a negative unit feedback system as at…

Q: 1. What is the minimum sampling frequency in Hz for the EEG signal with main components up to 10Hz?…

Q: مصدر کوش سيطره.pdf EXERCISES QUESTIONS FOR PRACTICE 1. The open-loop transfer function of a unity…

Q: 2 - Forward path transfer function is applied to the input of a negative unit feedback system given…

Q: 2. Determine the range of sampling interval T, that will make the closed loop system shown below…

A: Steps: Find G(s) and then G(z) Then Using G(z) ,find T(Z) Find pole of T(z) Then range of T for the…

Q: The forward path transfer function of a unity feedback system is given by 100 G(s) = s? + 10s + 100…

Q: The overall transfer function for a unity feedback system is G(s) = 4/(s^2+4s+4). Which of the…

A: Given closed loop unity feedback systemG(s)=4s2+4s+4 Given statements about the system1-position…

Q: Which of the following statements are correct? A. Feedback can cause a system that is originally…

A: The solution is given below

Q: The unity feedback system with OLTF is (s+2) given by GH(s) = s(s+1)(s+7). The steady state error…

A: Given, The unity feedback system with open loop transfer function, GHs=s+2ss+1s+7

Q: 9 - Forward path transfer function is applied to the input of a system with negative unit feedback…

Q: The forward route transfer function is applied to the input of a negative unit feedback system as at…

Q: The forward-route transfer function applies the unit digit function to the input of a negative unit…

A: For the given system we need to find a value of K so that %OS is 7.3%

Q: 5000 For the unity feedback system as shown below where G(s) s(s+75) R(s) E(s) C(s) G(s) a. What is…

A: The solution is given below

Q: The forward-route transfer function is applied to the input of a negative unit feedback system as at…

Q: 3. The forward, feedback and closed- loop transfer function for this system are: R + 3 10 2s + 1 30…

A: We need to select correct option for forward transfer function and feedback transfer function and…

Q: We consider a regulation system with a proportional regulator described by a constant transfer…

A: Part 3: The characteristic equation of the closed-loop control system is given by:

Q: Q.9 Find all static error constant for a unity feedback system with feedforward transfer function…

Q: The forward-route transfer function is applied to the input of a negative unit feedback system as at…

Q: 4) If the unity feedback system is given by the open loop transfer function G(s) = ks?/ [(1 + 0.3s)…

A: Magnitude Plot A magnitude plot is a part of a bode plot to analyze the frequency response of the…

Q: Q.6/ Find the value of K for the unity feedback system shown in Figure 1, where K(s +3) G(s) = s (s…

Q: 100 s(s+20) Q6) For the open loop transfer function G Determine the step, ramp and parabolic error…

Q: Consider unity FBCS (feedback contrpl system) whose open loop transfer function is given by G(s)=…

Q: K Q6: For a unity feedback system with G(s) = do the following: s(s+5)(s+11)' a. Find the gain K,…

A: Given unity feedback system with G(s) = k/s(s+5)(s+11) And by considering the given factors…

Q: For the following feedback system with the input R(s) and the disturbance Ta(s), answer the…

A: The transfer function can be found by only one input acting at a time. Transfer Function of YsRs…

Q: Determine the step, ramp, and parabolic error constants (Kp, Kv, and Ka) for the unity feedback open…

Q: A unity feedback system has a forward path transfer function G(s) = 13 / s(s+1) Determine the…

A: Dear,as per company guidelines we can answer only 3 sub-parts at a time, kindly post other sub-parts…

Q: 3. The forward, feedback and closed-loop transfer function for this system are: E R + u 3 10 2s + 1…

A: We need to select correct option for given circuit

Q: Obtain root locus plot for the unity feedback system with transfer function G(S)= (S+1.5)K /…

A: In this question, Obtain root locus plot for the unity feedback system with transfer function G(S)=…

Q: Obtain root locus plot for the unity feedback system with transfer function : G(S)= (S+10)K /…

A: In this question, Obtain root locus plot for the unity feedback system with transfer function :…

Q: 12 - Forward path transfer function is applied to the input of a negative unit feedback system given…

A: For the given system we need to find a peak time.

Q: Sketch the root locus plot of unity feedback system with an open loop transfer function k G(s) =…

Q: 14) if the o/p of a feedback-type A/D is (101011) with clk freq.(1 MHZ) then Tconv. equals : 47 us…

A: 14) N= No of clock cycle required to get 101011 is decimal equivalent of this which is 43

Q: Consider the unity feedback system shown below. Find the characteristic equation of the system.…

A: To answer above question, one should know about the concept of stability in a control system. In a…

Q: K(s + 2)(s + 4)(s+ 6) s2(s +5)(s+7) G(s) = %3D

Q: Consider a unity-feedback control system whose open-loop transfer function is K G(s) s(s² + s + 0.5)…

A: Write the given transfer function and write the transfer function in terms of frequency.

Question

The forward-route transfer function is applied to the input of a negative unit feedback system as at the bottom, and the overrun rate is given as %OS=7.8% at the exit of the
K
22 -
G(s) =
system.
(s + 2)? In this case, what is the natural frequency of the system?
O A) 6.67
OB) 3.17
C) 4.92
OD) 1.75
O E) 2.63

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

When a unit ramp input is applied to the unity feedback system having closed loop transfer function, C(s)/R(s)= Ks+b/s2+as+b , (a>0, b>0, K>0), the steady state error will be ?
The forward transfer function G(s) with a H(s) feedback configuration of an uncompensated Basic Satellite Launching System is as shown in figures 1 and 2. A- Write a m-script and generate the time and frequency response of the system shown in Figure 1. (a = 4, b = 2, c=2, d = 1and e=10, and f=4). B- Compute the percent overshoot, peak time and settling time, using second order approximation through pole zero cancellation and unity feedback configuration shown in figure 2.
The forward transfer function G(s) with a H(s) feedback configuration of an uncompensated Basic Satellite Launching System is as shown in figures 1 and 2. A- in the picture B- Compute the percent overshoot, peak time and settling time, using second order approximation through pole zero cancellation and unity feedback configuration shown in figure 2. C- Summarise the results (a) and (b) in tabular form and comment on the stability of both systems based on time response graph for (a) and computed values in (b).
are given a system’s transfer function as T(s) = 21 Construct a state-space model for the given system using ” Observer Canonical Form” method. | that the full state information of this system is available, design a state-feedback controller for this put the desired closed loop poles at ~2+ 2. Now, assume that the state information of the system are measurable, for this case what kind of controller do you suggest? Design this controller so that the ¢ Joop poles of the system are located at —10 + 510.
What should K be for a negative unit feedback system to be marginally stable, given the open transfer loop function? a- K=0.2 b- K≥2 c- K=8 d- K≥8 e-none
Obtain rout-locus plot for the unity feedback system with transfer function
A unity feedback system has a forward transfer function given below. Find the value of K to yield a static error constant of 25,000. 18922.17 18992.17 18292.17 18229.17
The open loop transfer function of unity feedback system is ??(??) = ??????????(??+??)(??+????).1- Assess the stability of the system.2- If the gain ?? is connected in series with G(s) as shown in figure Q1, Determine the range of ?? for stable system.
Consider the feedback system given the open loop transfer function below G(s)H(s) = K / ( S (s+3) (s+2)) a) Using the Routh-Hurwitz criterion, for which value of K, the poles of the closed-loop system take the pure imaginary value.b) What will be the maximum value of K for the system to be stable?c) Calculate the value of K, where the real value of the complex root of the system is Re{s}=-1. Tip 1: Closed loop transfer function T(s) = G(s) / ( 1+ G(s)H(s)) .Routh HurwitzIn order to perform the criterion analysis, the denominator of the closed-loop function will be examined. Tip 2: The real value of the system complex root Re{s}=-1 is expressed by the following formula f^2(s) = p(s-1) p(s) is the payoff of the closed-loop function.
A unity feedback system has loop transfer function: L(s) = Gc(s)G(s) = 4(s+z)/s(s+1)(s+3) a) Draw root locus as z varries from 0 to100 b) using root locus, estimate the percentage overshoot and settling time (within 2%) of system at z =4 c) determine actual overshoot and settling time at z = 4
Given a unity feedback system, what value of K will result to steady state error of 8%?
Consider unity FBCS (feedback contrpl system) whose open loop transfer function is given by G(s)= 0.4+1/s(s+0.6) , Obtain the response to stop i/p. For the same calculate rise time Tr, peak overshoot Mp, peak time Tp and setting time Ts?