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![so it is a D= -2,-2 and are located same position Critically damped system. ا ve(t) = ¿Side o s (kitkačom) at [/(t) + K, L ]](http://img.homeworklib.com/questions/f4c1d8f0-4be6-11eb-8038-07773f7d5c55.png?x-oss-process=image/resize,w_560)
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8-2: (30) Consider the series RLC circuit driven by a source v = u(1). Determine the...
Section 3: Laplace transform for RLC circuit analysis (10 marks) A second-order RLC circuit with a...
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.
The switch in the circuit of Figure 1 has been in position A for a long...
The switch in the circuit of Figure 1 has been in position A for a long time. At t-0, it is moved to position B The resulting step response of the series RLC circuit is described by the r differential equation (1). Figure 1 dt L dt LC LC The solution to equation (1) has two components the transient response vt(t) and the steady state response, Vss(t) v(t)v(t)+ Vss(t) The transient response v(t) is the same as that for the...
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory wi...
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory will demonstrate how varying resistance changes the natural response of a series RLC circuit (Fig. 1). The function generator is modeled as an ideal voltage source v(t) 5 u() V in series with source resistance Rs-50Q. After measurements using an LCR meter, the inductor is modeled as an ideal L 90 mH inductor in series with resistance RL-20Q. The capacitance is C-0.22 μF. 1) Calculate the...
2. (14 marks total) This question deals with the series RLC circuit discussed in the classroom...
2. (14 marks total) This question deals with the series RLC circuit discussed in the classroom and in the labs. Assume that the voltage source is arbitrary and there is a non-zero charge, g(0), on the capacitor at time t 0 when a switch is closed to start current flow. For this question assume variable R, L and C values. (a) Write down the differential equation that describes the charge on the capacitor as a function of time. (2 marks)...
4. Consider a series RLC circuit driven by a voltage source with capacitor voltage as output. Ass...
4. Consider a series RLC circuit driven by a voltage source with capacitor voltage as output. Assume the following parameter values: R 20n, L ;: 1 mH, C : 5μF a. b. c. d. Write down the transfer function of the system Choose a sample time for the system Find the pulse transfer function (use MATLAB 'c2d' command) Find the range of K for stability for the closed-loop sampled-data system
4. Consider a series RLC circuit driven by a voltage...
Solve all the problems shown below Problem 1 In a source free RLC series circuit If...
Solve all the problems shown below Problem 1 In a source free RLC series circuit If R=1092 ,L=5H ,and C= 2 mF 1) Find a.,0, and the characteristics roots $,$2. 2) Find the response i(t) knowing that v(0)=5V and i(0)=1A Problem 2 In a source free RLC parallel circuit If R=52 ,L= 1H ,and C= 10 m 1) Find a ,0, and the characteristics roots S1,S2. 2) Find the response V(t) knowing that v(O)=10V and i(0)=5A Problem 3 In a...
A series RLC circuit driven by a source with an amplitude of 120.0 V and a...
A series RLC circuit driven by a source with an amplitude of 120.0 V and a frequency of 50.0 Hz has an inductance of 797 mH, a resistance of 289 Q, and a capacitance of 47.1 pF. (a) What are the maximum current and the phase angle between the current and the source emf in this circuit? 265.07 x Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. A 29.59...
just do question 26 and 30 and show all your work (a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v...
just do question 26 and 30 and show all your work
(a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v(0+) 6 V. (b) Compute (2 ms). (c) Determine the settling time of the capacitor voltage. (d) Is the inductor current settling time the same as your answer to part (c)? 27. The current source in Fig. 9.43 is id) = 101(1-1) μ A. (a) Select Ri such that iLO")-2 μΑ. Compute L at t-500...
Engineering circuit analysis by Hayt 8th edition question 27 and figure 9.43 I think 10u(1-t) means 10 (for t<1)...
Engineering circuit analysis by Hayt
8th edition
question 27 and figure 9.43
I think 10u(1-t) means 10 (for t<1) and 0
(for t>1)
then, I can't remove this current source because it
continuously make 10micro A
(at t=500ms, t=1.002ms)
I don't know what's wrong now..
366 26. For the circuit of Fig. 9,43, 1 30-) mA. (a) Select R, so th O)6 V (b) Compute e2 ms). (c) Determine the settling, time of t capacitor voltage. (d) Is the inductor...
1. Consider a series RLC circuit with input voltage source Vin and the output voltage V,...
1. Consider a series RLC circuit with input voltage source Vin and the output voltage V, taken as the resistor voltage. Assume the values are R = 10 kN, L = 10 mH, and C = 100 pF. a) Find the maximum output voltage and the frequency that it occurs. b) Determine the bandwidth and the quality factor and discuss the value of the quality factor.
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.
The switch in the circuit of Figure 1 has been in position A for a long time. At t-0, it is moved to position B The resulting step response of the series RLC circuit is described by the r differential equation (1). Figure 1 dt L dt LC LC The solution to equation (1) has two components the transient response vt(t) and the steady state response, Vss(t) v(t)v(t)+ Vss(t) The transient response v(t) is the same as that for the...
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory will demonstrate how varying resistance changes the natural response of a series RLC circuit (Fig. 1). The function generator is modeled as an ideal voltage source v(t) 5 u() V in series with source resistance Rs-50Q. After measurements using an LCR meter, the inductor is modeled as an ideal L 90 mH inductor in series with resistance RL-20Q. The capacitance is C-0.22 μF. 1) Calculate the...
2. (14 marks total) This question deals with the series RLC circuit discussed in the classroom and in the labs. Assume that the voltage source is arbitrary and there is a non-zero charge, g(0), on the capacitor at time t 0 when a switch is closed to start current flow. For this question assume variable R, L and C values. (a) Write down the differential equation that describes the charge on the capacitor as a function of time. (2 marks)...
4. Consider a series RLC circuit driven by a voltage source with capacitor voltage as output. Assume the following parameter values: R 20n, L ;: 1 mH, C : 5μF a. b. c. d. Write down the transfer function of the system Choose a sample time for the system Find the pulse transfer function (use MATLAB 'c2d' command) Find the range of K for stability for the closed-loop sampled-data system
4. Consider a series RLC circuit driven by a voltage...
Solve all the problems shown below Problem 1 In a source free RLC series circuit If R=1092 ,L=5H ,and C= 2 mF 1) Find a.,0, and the characteristics roots $,$2. 2) Find the response i(t) knowing that v(0)=5V and i(0)=1A Problem 2 In a source free RLC parallel circuit If R=52 ,L= 1H ,and C= 10 m 1) Find a ,0, and the characteristics roots S1,S2. 2) Find the response V(t) knowing that v(O)=10V and i(0)=5A Problem 3 In a...
A series RLC circuit driven by a source with an amplitude of 120.0 V and a frequency of 50.0 Hz has an inductance of 797 mH, a resistance of 289 Q, and a capacitance of 47.1 pF. (a) What are the maximum current and the phase angle between the current and the source emf in this circuit? 265.07 x Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. A 29.59...
just do question 26 and 30 and show all your work
(a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v(0+) 6 V. (b) Compute (2 ms). (c) Determine the settling time of the capacitor voltage. (d) Is the inductor current settling time the same as your answer to part (c)? 27. The current source in Fig. 9.43 is id) = 101(1-1) μ A. (a) Select Ri such that iLO")-2 μΑ. Compute L at t-500...
Engineering circuit analysis by Hayt
8th edition
question 27 and figure 9.43
I think 10u(1-t) means 10 (for t<1) and 0
(for t>1)
then, I can't remove this current source because it
continuously make 10micro A
(at t=500ms, t=1.002ms)
I don't know what's wrong now..
366 26. For the circuit of Fig. 9,43, 1 30-) mA. (a) Select R, so th O)6 V (b) Compute e2 ms). (c) Determine the settling, time of t capacitor voltage. (d) Is the inductor...
1. Consider a series RLC circuit with input voltage source Vin and the output voltage V, taken as the resistor voltage. Assume the values are R = 10 kN, L = 10 mH, and C = 100 pF. a) Find the maximum output voltage and the frequency that it occurs. b) Determine the bandwidth and the quality factor and discuss the value of the quality factor.
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