Q.2) For the below unity feedback system shown in figure a, M(s) is added (as shown in gure b) to make an error at the steady-state to be zero, if you know that the input R(s) is a a- Unit step b- Unit ramp c- Unit-parabolic valuate M(s) which perform the mentioned function? R(s) G(s) C(s) R(s) G(s)H M(s) Cs) (а) (b)
Q: Q1 (A): Sketch the Nyquist plot of the unity feedback system that shown in figure (1). Is the close…
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Q: Example 2: Obtain step response of a unity feedback system having forward path 1 transfer function…
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Q: Consider the unity-feedback control system with the following feedforward transfer function: K G(s)…
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Q: Given a unity feedback system with G (s) =K/ s (s+4). What is the value of K for a damping ratio of…
A: Given: Transfer function is Gs=K/ss+4 Feedback is unity Hs=1 Damping ratio is ζ=0.5
Q: 1. Consider the unity feedback system below R(s) + E(s) C(s) G(s) K G(s) (s + 4)³ 2. Find the…
A: Solve first three sub-parts in a multiple sub-part question, unless the student has asked for…
Q: A unity-feedback closed-loop system has a plant of G(s)=1/(s+1) and a proportional- derivative…
A: Given, A unity feedback closed system has a plant of G(s)=1/(s+1) H(s)=1 Proportional gain is Kp…
Q: Q1) For the unity feedback control system with forward transfer function (G(s)) as follow, draw the…
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Q: Consider the feedback system is shown in following figure. The system has one parameters R(s) C(s)…
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Q: Ex. 445. G(s)=k(s+7)/(s(s+ 9)(s+11)) is the FTF of a unity- feedback closed-loop system. respect to…
A: The Transfer Function is given as: Gs=ks+7ss+9s+11Here Number of Poles,P=3They are at…
Q: Given the circuit below for a FET feedback amplifier, if V =1 mV, R1= 10 k2, the open-loop gain A =…
A: Given data: A0=-1000β=Avf=-10Vi=1 mV
Q: Q1 /A plant has the open loop transfer function shown below, with unity negative feedback and step…
A: G(s)=(s+1)(s-4)(s+2)(s+3)G(s)=s2-3s-4s2+5s+6
Q: QUESTION 5 (a) For a negative feedback system shown in Figure Q5(a), the input and output to the…
A: Given circuit,
Q: P5.4 The open-loop transfer function of a unity negative feedback system is K G(s) s(s + 2) A system…
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Q: Example 2: Obtain step response of a unity feedback system having forward pathtransfer function of…
A: A unity feedback system have Unit step input signal. H(s) =1 R(s) =1/s Forward path transfer…
Q: Q3] Sketch the root Locus of the unity-feedback system whose open-loop transfer function is given…
A: Given An open loop transfer function. We need to determine the No of poles and zeroes,locate…
Q: (2) suppose the open-loop amplifier (or simply the OpAmp) in the above feedback amplifier has the…
A: The magnitude response is the ratio of the output signal's frequency amplitude to the input signal's…
Q: Find steady state error for ramp input, system type, Kp, Kv, and K. for the following non-unity…
A: Given : In the given question they have mentioned a non unity negative feedback system. For the…
Q: .32 The feedback system shown in figure below is stable for all values of k given by k s(s+ 1) (s +…
A: Given, Feedback system, Here, Gs=kss+1s+6Hs=1
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: QI An amplifier employing negative feedback is shown in Figure Q1, for this circuit: (ii) Derive the…
A: Voltage shunt negative feedback amplifier:
Q: Consider the root locus of a unity feedback system that has the open loop transfer function shown…
A: In this question, Find the value of the intersection of the asymptote with the imaginary axis. We…
Q: A unity feedback system with G(S) = K S(S+20)(S+40) is operating at 20% overshoot. Design a…
A: Here, given system is standard third order system as it contains three poles and no any zero. With…
Q: QUESTION 1 A unity feedback system has open loop transfer function shown below. Find K1 so that the…
A: Given, Open loop transfer function of the system, HGs=k1ss+k1k2 ζ=0.4tp=2 sec
Q: Find steady state error for ramp input, system type, Kp, Kv, and K. for the following non-unity…
A: In this question the given system have non unity feedback so we convert it having unity feedback .…
Q: Consider a unity feedback system with a forward transfer function, G(s) = = K s(s+ 2)(s + 10) (a)…
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Q: Ex. 450. G(s)=k/(s(s+ 2)(s+ 5)) is the FTF of a unity-feedback closed-loop system. Sketch the root…
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Q: Q2: The forward-loop transfer function of a unity feedback system is given by: 1 G(s) = (s2 + 4s +…
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Q: Ex. 440. G(s)=k/((s+4)(s+11)) is the FTF of a unity-feedback closed-loop system. Sketch the root…
A: Given OPEN LOOP TRANFER FUNCTION- G(s)=k/((s+4)(s+11))
Q: Which of the following is true about the ( + 2)* Root-ground curve of a negative unit feedback…
A: Given open loop transfer function is - Given that system is negative unity feedback system.
Q: An open-loop transfer function, KG(s) of a unity feedback system is given by: G(s) = s²–2s+4 (s+5)…
A: Part (a): Consider the open-loop transfer function, Gs=s2-2s+4s+5=s-1+j1.73s-1-j1.73s+5 The number…
Q: Ex. 460. G(s)=k(s+38)/(s(s+33)) is the forward transfer function of a unity- feedback closed-loop…
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Q: Consider the root locus of a unity feedback system that has the open loop transfer function shown…
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Q: Q6: For a unity feedback system with G(s) =- do the following: s(s+5)(s+11)’ a. Find the gain K,…
A: Unity feedback system is given as, Gs=Kss+5s+11 Formula for percentage overshoot, μp=e-Cn1-c2×100…
Q: fi. Aclosed-loop feedback system is shown in following figure R(s) K C(s) s(s–1)(s+5) 1+s (1) Find…
A: We will find close loop gain , and then we will find characteristics equation to find out range of k…
Q: Ex. 440. G (s)=k/ ( (s+2)(s+ 8)) is the FTF of a unity-feedback closed-loop system. respect to k.…
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Q: Determine the closed-loop transfer function of the system shown in Figure Qla. The plant transfer…
A: As per our guidelines we are supposed to answer only one question. Kindly repost other questions as…
Q: Ex. 440. G (s)=k/ ( (s+2) (s+ 8)) is the FTF of a unity-feedback closed-loop system. Sketch the root…
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Q: hand solution and Matlab. if its possible can any one post a command list for matlab for control?
A: PART a: Given overshoot is 0.1 Write the expression for the peak overshoot,
Q: Consider following unity feedback system. R(s) K C(s) s(s + 1) (s + 2) Determine the value of K such…
A: determine the value of K such that the natural un damped frequency of dominant complex conjugate…
Q: A unity feedback system has the open loop transfer function shown below. Find the gain at the…
A: The open-loop transfer is shown below: HG(s)=Ks(s+3)(s2+2s+2) The unity feedback closed-loop…
Q: Q2: For the unity feedback second order system shown below, if R(s) is a unit step, trace R(s), E(s)…
A: In this question 2nd order system is given. We have to find out error signal , output in Laplace…
Q: Q.2) For the below unity feedback system shown in figure a, M(s) is added (as shown in figure b) to…
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Q: Q1 (A): Sketch the Nyquist plot of the unity feedback system that shown in figure (1). Is the close…
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Q: Ex. 440. G(s) =k/((s+5) (s+ 6)) is the FTF of a unity-feedback closed-loop system. respect to k.…
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Q: . For the unity feedback system shown in figure find the location for compensating pole for…
A: Solution- Given,ωn= 2.91 r/sZc = 3 so, Gs = Ks-3ss+4s+8Characteristics Equation,1+GsHs…
Q: A unity feedback system with its forward transfer function G(s) = K(s+a)/s(s+B) is to be designed to…
A: The solution is given below
Q: The unit in the figure below is given as G (s) in feedback system. When a unit ramp is applied to…
A: The unit in the figure below is given as G (s) in feedback system. When a unit ramp is applied to…
Q: Problem 2: The following is the open-loop transfer function for a unity- feedback discrete system…
A: Given open loop transfer function for a unity feedback discrete system Changing z-domain into…
Q: Q.2) For the below unity feedback system shown in figure a, M(s) is added (as shown in figure b) to…
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Q: For the feedback control system given in the figure on the right, R(s) + C(s) K s(s + 2)(s+5) (a)…
A: Note -As per the Bartleby portal I am doing the first three mentioned question...only i.e., d, e and…
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- A unity-feedback system has forward transfer function (see attached). a) Sketch the root locus for this system as K varies from 0 to ∞; b) Use the Routh-Hurwitz test to determine the range of K for the system to be stable; show this value of K on the root locus plot.An uncompensated unity feedback system with certain deficiencies has no zeroes and poles at -1, -2 and -5. Answer the following questions based on the above description of the system Determine using an apt technique, the gain of the system at damping ratio 0.45A unity feedback system with forward transfer function below G(s) = K/(s(s+6)).is operating with a closed-loop step response that has 15% overshoot. Please solve for the following:a. Evaluate the settling time. b. Evaluate the steady-state error for a unit ramp input. c. Design a lag-lead compensator to decrease the settling time by 2 times and decrease the steady-state error for a unit ramp input by 10 times. Place the lead zero at -3.
- BelowIn the unit feedback system given the shape, G(s),is given as. When a unit ramp is applied to the input of the system, 2% of the steady-state error and unit to the inputWhen the step is applied, it is desired that the percentage exceedance rate is 9.25% and the settling time is 0.58 s.1-In this case, which of the following is the approximate value of the constant a? 2-In this case, which of the following is the approximate value of the constant b? 3-Looking at the unit step response of the systemWhat is .peak time?The unit in the figure below is given as G (s) in feedback system. When a unit ramp is applied to the input of the system, the steady-state error is 0.4% and when the unit step is applied to the input, the settlement time is desired to be 50 ms. So which of the following is a pole value of the closed-loop transfer function? G(s)=k/s(s+a)BelowIn the unit feedback system given the shape, G(s),is given as. When a unit ramp is applied to the input of the system, 2% of the steady-state error and unit to the inputWhen the step is applied, it is desired that the percentage exceedance rate is 9.25% and the settling time is 0.58 s.1-In this case, which of the following is the approximate value of the constant a?
- Consider the unity feedback system with the following root locus for K>0. Find the approximate value of K which leads to the maximum possible overshoot of the closed loop system. Also, find all ranges of K for which the system is overdamped and as well as the steady state error to a unit step input.A For a monolithic negative feedback system defined by the open path function, find the gain range (to operate the system at steady stateConsider 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.
- Below is given the forward transfer function of a unity-feedback system.a) Determine the position, velocity, and acceleration error constants Kp, Kv, and Ka and the steady-state error for step, ramp, and parabolic inputs;b) If possible, use a proportional controller to give a steady-state error for ramp input of e_ss(ramp) ≤ 0.01; c) Determine the controller necessary to give zero steady-state error for a ramp input;d) Determine the controller necessary to give zero steady-state error for aparabolic input.The margins of stability for K = 12 of the unit feedback system shown in the figure are given below. Phase crossover frequency : Wfc = 2rad/s Gain crossover frequency: wgc = 1.4rad/s Phase Margin = 16.8 degree Amplitude Margin Kg = 6dB (NOTE: Use 3 decimal places in your operations.) a) Calculate the amplitude margin for K 60. b) Calculate the point where the KG(jw) Nyquist Diagram intersects the negative real axis for K 60.For the open-loop system G(s) = 3/s^2 + 2s - 3 assume there is a feedback with a proportional gain, K. And sketch a locus of closed-loop rootsverse K. What is the minimum value of K to achievea stable system?