PROBLEM NUMBER TWO: The closed-loop transfer function of a negative unity feedback system is given by(s − 2)T(s) ==s² (K + 2)s + (2K + 5)-Using the Routh Hurwitz Criterion for Stability, find the range of values of K for the system to be stable. Question 12For the system to be stable, K should be greater than what value? Express your answer into 2 decimal places.Blank 1 Add your answerQuestion 13For the system to be stable, K should be less than what value? Express your answer into 2 decimal places.Blank 1 Add your answer

Given: The closed loop transfer function is Ts=s-2s2-K+2s+2K+5

PROBLEM NUMBER TWO: The closed-loop transfer function of a negative unity feedback system is given by (s 2) T(s) = s² (K + 2)s + (2K + 5) Using the Routh Hurwitz Criterion for Stability, find the range of values of K for the system to be stable.

PROBLEM NUMBER TWO: The closed-loop transfer function of a negative unity feedback system is given by (s 2) T(s) = s² (K + 2)s + (2K + 5) Using the Routh Hurwitz Criterion for Stability, find the range of values of K for the system to be stable.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Related questions

Q: 4. A) Reduce the given circuit to the fewest possible components thru series/parallel combinations…

A: Series or parallel circuit: To find the series or parallel combination of the element in the circuit…

Q: Using the following characteristics, determine Bac at IB = 60 uA and VCe= 5V t/c (mA) (HA) V=IV VCE…

A: We need to select correct option for beeta for given characteristic

Q: 8 V 202 60 *Rt is 2.052 ohm 49 292 20 True False

Q: 16. The resistance of a parallel circuit consisting of two branches is 12 ohms. If the resistance of…

Q: The sequence component of phase a current are: Zero sequence current = 0.47 + j1.49…

A: Given,The sequence component of phase a current are as follows,Zero sequence current = 0.47 + j1.49…

Q: A given BJT, B = 400. What is the value of a for the device? 1.0025 0.9975 0.002

Q: Describe analog and digital Instrumentation system with necessary block diagram.

A: Digital Instrumentation: Digital Instruments is an instrument that is used to represent the…

Q: The below S-plane indicates that the system is jw s-plane X -7 undamped over damped critically…

A: Given: Poles located on s-plane

Q: II. A-to-Y Conversion A. Solve for the required values with complete solution and progressive…

Q: dy dªy day + 8. d²y +21 dt4 cts dt 2 + 18 - 10x dt WHERE Y(T) IS THE OUTPUT AND X(T) IS THE INPUT.…

Q: (A + B)(A' B') = ? Select one: a. 0 b. AB' C. 1 d. AB

A: Given data, A+BA'B'=?

Q: he network given for the ac response with the re model inserted between the appropriate terminals.…

Q: n the given network a. determine re calculate Zi and Zo = Find Av and Ai 1μF HH Vcc=16V 39 k 14,7 ΚΩ…

Q: 1. A 3 phase, overhead transmission line has a total series impedance per phase of 200 ohms and a…

A: In this question we will find sending end voltage and current by rigorous method.... Note :-as per…

Q: 1.1) If the ideal OP-Amp circuit... A. are R₁-82 k and R₂= 27 k, Determine the close-loop gain. B.…

Q: (b) Using an s-plane graphical sketch and suitable control systems theory, show that the plant's…

A: In this solution the concept of system stability.

Q: The LED usually turns ON in the .......... Not Forward and not reverse Reverse Biased O Forward…

Q: Find the value of power gain for an amplifier in decibels, given that output voltage value is 40v,…

A: In this question we will find power gain in decibel.....

Q: The speed of light in a vacuum is O1x10^8 m/s O 3x10^8 m/s O 5x10^8 m/s O 6x10^8 m/s

Q: * One of the Zener diode applications is .......... O Current regulator O Power regulator O None O…

A: Answer: Option:-4: Voltage regulator

Q: 100 ΚΩ ΣR 15 ΚΩ R₂ + Vbb= 24 V TIT CamScanner Rp = 470Ω

A: We need to find out voltage for given circuit

Q: Show your solutions clearly and systematically. The D latch of Figure 1 is constructed with four…

A: Given The D latch of Figure 1 is constructed with four NAND gates and an inverter. Consider the…

Q: One kilowatt equals ______. a. 33,000ft-lb of work /min b. 550 ft-lb of work/sec c. 100 watts d.…

A: We need to select correct option for one kilowatt power

Q: Question 1 Using the appropriate method in generating the "final" Routh Table, enter the elements in…

Q: 2. Find the voltage across a 5µH inductor if i equals A) 30te-t nA B) 4e-5t sin 100t mA

Q: 11. The impedance on the Smith chart can be repeated for each half wavelength * length of the…

A: From the Question The impedance on the Smith chart can be repeated for each half wavelength length…

Q: Question 2 (Generalized Controller Design): Consider the open loop system GH (=)=- (=-0.75)(=-1)² a)…

A: Closed loop system: It is a system in which the output is dependent on the input of the system. The…

Q: Problem 49: Find the rms value of the following sinusoidal waveforms: a. v = 120 sin (377t + 60°) b.…

A: The RMS value of a Sinusoidal waveform can be calculated by dividing its Peak value by √2.

Q: Show that.. F} = X(P) == X(²x 1070 10시

A: We need to prove time scaling property of Fourier transform

Q: an+bu[-n- c] ↔ ³²2-¹, ROC: 2 < 1-32'

Q: 8 V For the circuit shown below Rt is 2.052 ohm 492 292 60 292 292

Q: A circuit whose resistance is 20 22 and inductance 10 H has a steady voltage of 100 V suddenly…

A: In this question we need to find a total input power to the circuit and power dissipated in the…

Q: If Vz=8 V and Pzmax=150mW. Determine the minimum value of RL to ensure the Zener diode is in the ON…

A: We need to find out the value of load resistance

Q: Explain the effects of power factor on motor effects

A: The power factor of the induction motor is determined by its material of construction. Materials of…

Q: J 2) 3) of the Sketch the circuit of each fallowing component parts of describe. the functions ar…

A: Note: We are authorized to answer one question at a time since you have not mentioned which question…

Q: of the system with specification given, Ka = 25,600? A.

Q: Four shunt generators are operating in parallel and taking equal shares of a 2500 A, 240 V bus load.…

A: SHUNT GENERATOR: A shunt generator is a direct current electric generator in which the field and…

Q: Identify/describe two functions of the Programmable Interrupt Controller (PIC) Finish the sentence…

A: PIC microcontrollers are a subset of the PIC microcontroller family. Although the name "Programmable…

Q: Given the following voltages: e₁ = -100sin(wt-π/3), e₂ = 250cos(wt+ /6), e, = 150sin(wt+ /4), and e,…

Q: Using Thevenin's theorem, Find the Current in 10 ohm Resistor in Figure below? Using Electronic…

A: Using Thevenin's theorem, find current in 10 ohm resistor

Q: 12. From the information below, finish analyzing the circuit by completing the chart below. R1 R2…

A: In this given questions, we need to calculate the current through each resistor and voltage across…

Q: Show your solutions clearly and systematically. The D latch of Figure 1 is constructed with four…

A: D Latch or Latch is an electronic circuit which is used to store or save the information of size one…

Q: Solve the base current (IB) of Figure 612. VCC 8V R1 3.3ΚΩ 26.10 UA 28.8 uA 32.12 UA Beta = 110 R2…

Q: To ensure a successful voltage buildup, the self-excited dc generator must be started with a shunt…

A: The correct answer is option b, Lesser than the maximum slope of its magnetization curve. Critical…

Q: Given an Ideal OP-AMP, what is the output voltage if the input voltage is Vi=0.9, R1=220 Ω and…

Q: Chapter 17: Problem 4 (Series-Parallel): For the network shown below, find: a) The total impedance…

A: As per the guidelines of Bartley we supposed to answer first three subpart only

Q: The following are the symmetrical components of phase B current. Positive sequence component =…

A: In this question we need to find a positive sequence component of phase A I.e IA(1)

Q: PROBLEM NUMBER TWO: For a negative unity feedback system with the given forward transfer function,…

Q: RF tuning Stage known as the "pre-selector"

A: Band Pass Filter-It is the filter which passes only the range of frequencies that is specified…

Q: 3- Form and draws bus admittance matrix (Ybus) matrix for the following power systems. Bus code…

A: Given, The power systems are as follows,

Question

PROBLEM NUMBER TWO: The closed-loop transfer function of a negative unity feedback system is given by
(s − 2)
T(s) =
=
s² (K + 2)s + (2K + 5)
-
Using the Routh Hurwitz Criterion for Stability, find the range of values of K for the system to be stable.

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

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

Given a unity feedback system with forward transfer function G(s) = K* (s+z)/((s+1)* (s+7)). Determine z and K that will yield a step response with a time constant of 0.130 sec. and a damping ratio of 0.430.
Consider a unity feedback system with G(s) = K (s+1)/(((s+1)^2+5^2)*(s+3)). Find the angle of departure of the root locus from the complex pole containing the positive imaginary part. Express the angle in radians in [-pi,+pi] and degrees in [-180,+180]. Sketch the root locus accurately.
Consider unity negative feedback applied to the system: G(s) = k/s(s^2+4s+5) (a) Give a complete sketch of the root locus (0 ≤ k ≤ ∞) for this system assuming a unity feedback configuration. Make sure you show all the significant features on your sketch. Give particular attention to the angle of departure from the complex poles. (b) Indicate on your root locus diagram the point at which the damping ratio of the dominant poles is 0.5.
Find the transfer function of the electric circuit given below by the block simplification method. In case of R = 1kΩ, C = 10µF and L = 2mH, if the system operates in closed loop with negative unit feedback, find out what the k value should be in order for the system to be stable.
The loop gain GH of a closed loop system is given by the following expression K/s(s+2)(s+4), The value of K for which the system just become unstable is ?
Consider the unity-feedback system with the open loop transfer function: ?(?)= 1 /?+5 Obtain the steady-state output of the system when it is subjected to each of the following inputs: a- r(t) = sin(? + 30°) b- r(t) = 2cos(2? − 45°) c- r(t) = sin(? + 30°) + 2cos(2? − 45°)
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.
For the Unity feedback Control System the forward path transfer function is given by: G(s) = 20/s(s+2)(s^2 + 2s + 20) Find the steady state Error of the System? 2. Determine the static error coefficient kp,kv and ka . G(s) = 50/(1+0.1s)(s+10) 3. Find the dynamic error coefficient of the unity feedback system whose forward transfer function is G(s) = 20/s(s+5) Find the steady state error of the system for the input 4t2
The transfer function of G(s)=(s^2+s+4)/s(s-1)(s+1) is in a closed loop unit negative feedback system with a compensator of gain K. Use the Nyquist criterion to find the values of K for which the system will be stable and check your result using the Routh-Hurwitz crierion.
The transfer function of G(s)= s^2 +s +4/s(s-1)(s+1) is in a closed loop unit negative feedback system with a compensator of gain K. Use Nygist criterion to find the values of K for which the system will be stable and check your result using the Routh-Hurwitz criterion and a root locus plot.
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.
Consider the unity-feedback control system with the following feedforward transfer function: G(s) = K / s(s2+4s+5) (1) Plot the root locus. (2) Determine closed-loop poles that have the damping ratio of 0.5. Find the gain value K at this point. (3) For what value of K is the overshoot less than 10% and the maximum rise time less than 1.5s.