You have the transient response of a closed-loop system as shown in the figure, theentry being a unit step and the second-order system. Determine:1.The differential equation corresponding to the open mesh system2.The transfer function of the open mesh1.50.5INTOUT1015t [s]20(1)

Answered: Image /qna-images/answer/8fc71337-0a3b-4b9b-8817-0cb6c5daae90.jpg

You have the transient response of a closed-loop system as shown in the figure, the entry being a unit step and the second-order system. Determine: The differential equation corresponding to the open mesh system The transfer function of the open mesh 1. 2. 1.5 0.5 INT OUT 10 15 20 t [s] (1)A

You have the transient response of a closed-loop system as shown in the figure, the entry being a unit step and the second-order system. Determine: The differential equation corresponding to the open mesh system The transfer function of the open mesh 1. 2. 1.5 0.5 INT OUT 10 15 20 t [s] (1)A

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

Similar questions

Please solve this problem in detail A step up DC converter is used to control power flow from a DC votage Vs = 100V to a battery voltage E = 200V. The power transferred to the battery is 20 kw. The current ripple of the inductor is negligible. The duty cycle and the effective load resistance as seen from the input are respectively equal to: Select one: a. None of these b. 0.5, 0.5 Ohms c. 0.33, 0.5 Ohms d. 0.5, 0.33 Ohms
c) A Flyback converter has an input of 332 V from a DC source, operating at 40 kHz with duty cycle approximately 1/3. The rated output is 12 V at 5 A. The circuit operates with continuous inductor current at threshold 1.5 A, and the turn ratio must be an integer. By assuming that all the components are ideal, and capacitor and inductor are operating in steady state : V. Find the peak and mean of the switch current.
c) A Flyback converter has an input of 332 V from a DC source, operating at 40 kHz with duty cycle approximately 1/3. The rated output is 12 V at 5 A. The circuit operates with continuous inductor current at threshold 1.5 A, and the turn ratio must be an integer. By assuming that all the components are ideal, and capacitor and inductor are operating in steady state : ii. Determine the inductor's turn ratio.
1-The lead compensator can: A) Speed up the transient response. B) Improving the steady-state response. C) Reduce the response overshooting. D) All the above.
6. Consider the circuit depieted in the figure below, R V,eiut where we shall assume that the input voltage can be written as Vin(t) = Re{Voet} with complex-valued Vg, and likewise that the output voltage Vout(t) = Re{Vje*} with complex-valued Vị. With j = V-1, the complex impedances of resistors, ca- pacitors, and inductors in this case are respectively given by ZR = R, Zc = ZL = jwL. (a) Determine Vı/Vo as a function the angular frequency w given the parameters R and C. (b) Evaluate Vi/Vo in the limit w +0 and in the limit w + o0. Is the circuit above a low-pass filter, a high-pass filter, or something else? w
Problem 3: Design a buck-boost converter to meet the following specifications. Assume that the ESR of the 40x106 capacitor in the available type is given by ESR = 2, where C is the capacitance in C Farads (this information is given so that the students do not have to refer to a capacitor datasheet to complete this design; for example, if you need to limit the ESR to be less than 0.12, based on the design equations given in the notes, then C should be more than 400 uF for this type of capacitors). Vin = 10V - 14Vdc; Vo = 12Vdc; I, max = 5A; Io_min = 1A fs = 100kHz; AV, < 100mV (pk – pk)
c) A Flyback converter has an input of 332 V from a DC source, operating at 40 kHz with duty cycle approximately 1/3. The rated output is 12 V at 5 A. The circuit operates with continuous inductor current at threshold 1.5 A, and the turn ratio must be an integer. By assuming that all the components are ideal, and capacitor and inductor are operating in steady state : i. Draw the converter circuit.
Discuss the concept of unit-step, impulse and sinusoidal response and provide at least one example or application. ( I want theory without Plagiarism )
c) A Flyback converter has an input of 332 V from a DC source, operating at 40 kHz with duty cycle approximately 1/2. The rated output is 12 V at 5 A. The circuit operates with continuous inductor current at threshold 1.5 A, and the turn ratio must be an integer. By assuming that all the components are ideal, and capacitor and inductor are operating in steady state: i. Draw the converter circuit. ii. Determine the inductor's turn ratio. iii. Determine the primary inductance. Sketch the diode current and switch current. iv V. Find the peak and mean of the switch current.
The waveforms shown in figure are applied to the inputs at A, and CLK. Sketch the resultant waveforms at Q0, Q1 and z, (assume Q0=Q1=0, show steps, tables etc. to find the solution) CLK Sp Jo CLK A K Fp 1 Rp
Illustrate the operation of impulse voltage generation using Marx circuit. The scematic diagram of Marx circuit arrangement need to be included and explained.
ii. G(s) = 29 s²+6s+58 a) Find the location of the poles, natural frequency and damping ratio values...... b) Determine the forms and write the general expression for the unit step response. c) Find Css (steady state value) and Peak value:.... d) Revise each transfer function to produce unit step response double approximately two tim slower.....