QUESTION 3 .1 List the two parameters of the second order system that helps to analyse...
Y(s) 4 3. Consider a second order system_ and undamped natural frequency. Is the system underdamped, overdamped or critically damped? [5pts] What are the damping ratio U(s) s2+3s +4
A second-order RLC circuit is shown in Fig. 1 0.05F 3Ω 2Ω 6A 6A 5H Fig.1 A second-order RLC circuit with a switch (1) Analytical part: derive the differential equations and solve them to find the response i(t for t>0. Specify whether it is an underdamped, critically damped or overdamped case. A second-order RLC circuit is shown in Fig. 1 0.05F 3Ω 2Ω 6A 6A 5H Fig.1 A second-order RLC circuit with a switch (1) Analytical part: derive the differential...
a) True or false b) c) If a second order system has a settling time of 7 seconds, and a peak time of 3 seconds we may say that the system is stable. A system with a closed-loop transfer function of the form: 10(s + 7) T(S) (s + 10)(s + 20) has a(n) response. la réponse correcte n'est pas répertoriée | the correct answer is not listed critiquement amortie critically damped O non amortie | undamped sous-amortie | inderdamped...
Problem #3 a) Determine if the next second order system is oscillating, low damped, critically damped or overdamped. Justify your conclusion. G(s)10 s2 +s +1 b) Determine the maximum percentage overdrive (if any) and the set time to the 2% criterion that will have the response to the unit step of the previous system. c) Plot the response to the magnitude 5 step of the G (s) system.
Question 7 The type of the following second order system is: G(s) R(s) C(s) 2+6s+ 9 O Undamped Critically damped Overdamped OUnderdamped II OOOO
Do only parts C and D 1. A second-order system has the following transfer function that describes its response: F(s)- s2 +as + 9 A. For a -3, calculate the following performance specifications of the system: Natural frequency (on) Damping ratio( Estimated rise time and settling time with ±5% change (tr, ts) Estimated overshoot (MP) . B. Label (a) ±5% range of steady state, (b) tr, (c) ts, and (d) MP on the step response curve below (You may also...
a.) Given the transfer function TF(s) = A/(s+ 8)(s - 5). What type of reponse do you expect for a step change in input voltage. b.)Given transfer function TF(s) = 10 7/(s 2 + 4480 s + 10 7 ). Determine the gain A, the damping coefficient and the natural frequency of this system. C.)The transfer function of a systems has a (s 2 + 2s +5) term in the denominator. This indicates that it is a what order system?...
please answer both parts Problem 3) (21 pt) Consider a system represented by the following second order differential equation: m.*+b+*+k- x = f() a) (7 pt). If m=1, b=2, and k-16. Determine whether the system is overdamped or underdamped. Show your work. b) (7 pt) If m=2, b=24, and k=200. Find the damped frequency.
Section 3: Laplace transform for RLC circuit analysis (10 marks) A second-order RLC circuit with a dependent source is shown in Fig. 3. 22 + VO - 132 1F + 15e-2 u(t) V ) 9[1-u(t)] V Y 0.50 » Fig. 3 A second-order RLC circuit with a dependent source Take the Laplace transform of the circuit and hence find the response io(t) for t > 0. Specify whether it is an underdamped, critically damped or overdamped case. Sketch the response.
Homework 04 Due: Final Exam System: G1 Time (seconds): 2 25 Ampltude: 2.4 Problem 1) Considering the four different responses recorded at different occasions to a step input of (t)-2u(t) shown in Figure P1; (a) Propose a transfer function that produced the Step Respons e System: G2 Time (sec.): 323 Amplitude: 1.96 underdamped response System: G4 Time (se conds): 9.11 Amplitude: 1.9 (b) Write a general expression for the response of G1 (c) What would be the order of the...