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Given the following circuit shown in Fig. P2 with zero initial condition with ift) is the...
For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label...
For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label the circuit in the s domain and use it to determine H(s)=Vo(s)/Vsrc(s). Using H(s) and given: (a) vsrc(t)= e'u(t) V, find vo(t) using the inverse Laplace Transforms. (b) vsrc(t)=2 cos 2t V, determine the steady state output vo(t). + 0.50, 1H 192 w + + + USRC 1 F V, 212 vo
Please clear step by step and correct answers thumb up An RL circuit network is shown...
Please clear step by step and correct answers thumb
up
An RL circuit network is shown below in Figure 2. + Vri(t) W R1 vs(t) R2 Figure 2 RL circuir network 1. If the system input is the voltage of power source (t) and the system output is VRI(!) (voltage across RI), write the transfer function T/s) (Do not plug in any detail value) (10 point) Use R1-19, R2-122, L=1H and assume zero initial condition for all following questions, 2....
Problem 4.1 For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw...
Problem 4.1 For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label the circuit in the s- domain and use it to determine H(s)=V_(s)/Vsrc(s). Using H(s) and given: (a) vsrc(t)= e'u(t) V, find vo(t) using the inverse Laplace Transforms. (b) vsrc(t)=2 cos 2t V, determine the steady state output volt). 0.502 122 1н + USRC 1 F V, 22 VO Fig. 4.1
3) For the circuit shown in figure 03, the initial condition is zero. (a) Find Vo(s)...
3) For the circuit shown in figure 03, the initial condition is zero. (a) Find Vo(s) using Thevenin's theorem (b) Apply initial and final value theorem to find Vo(t-0) and Volt-M) from Vo(s) (c) Obtain Volt) and from that find the values of Volt = 0) and vdt→ again Figure 03
subject: signals and systems 2. Consider the electric circuit shown in Fig. ??, L = 1H,...
subject: signals and systems
2. Consider the electric circuit shown in Fig. ??, L = 1H, C = 1F. • Determine the differential equation that relates the input (t) to output y(t). Recall that ic(t) = C2C and vy(t) = • Find the characteristic equation for this circuit. • Determine the zero-input response given an initial capacitor voltage of one volt and an initial inductor current of zero ampere. That is, find yo(t) given uc(0) = 2V and iL(0) =...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a step voltage of sv and the output is the voltage across the capacitor vot) a. Find the output voltage in Laplace domain. Find the output voltage as a function of time (assume the initial voltage across the capacitor is zero). Sketch the output voltage. Find the time constant and settling time. . c. (b) Given the following system G (s)-=-: i Find the differential...
The input to the circuit shown in Fig. 2 is the voltage source v(t). The output...
The input to the circuit shown in Fig. 2 is the voltage source v(t). The output is the voltage across the capacitor, v(t). Determine the output of this circuit as a function of time t when the input is v.(t)-8+12u(t) V 40 18 s(t) 160 Fig. 2
Use the Engineering approach to find the following (assuming: ve(0) given): a) derive the zero- i...
Neatly shown work please!
Use the Engineering approach to find the following (assuming: ve(0) given): a) derive the zero- input response of the circuit, b) derive the impulse response of the circuit, and c) derive the zero- state response to a step input (You are required to perform convolution by using the graphical method on this part) A. 8. Draw the s-domain circuit (use a current source for the capacitor initial condition) for the circuit and perform s-domain analysis to...
Question 2 (10%) The input to the circuit shown in Fig. 2 is the voltage source...
Question 2 (10%) The input to the circuit shown in Fig. 2 is the voltage source vs(t). The output is the voltage across two open terminals, vo(). If v()-3-(t) V, the output is the voltage vo()-10+Se30* V for 20. Determine the values of Ri and R2. 2 sa) olt) Fig. 2
I want the answer for Part B I have the answer for Part A-Q1 I uploaded it 2 H I F ua 212 < > 0.5% on Y; 4Ω Fig...
I want the answer for Part B I have the answer for Part
A-Q1 I uploaded it
2 H I F ua 212 < > 0.5% on Y; 4Ω Figure 1 PART A: MATHEMATICAL MODEL AND TIME DOMAIN ANALYSIS (5%) 1) For the circuit of Figure 1, determine the transfer function relating the output voltage (s) to the input voltage V(s). Assuming zero initial condition, obtain the output response vo(t) to an input step with 6V amplitude, that is vi(t)6...
For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label the circuit in the s domain and use it to determine H(s)=Vo(s)/Vsrc(s). Using H(s) and given: (a) vsrc(t)= e'u(t) V, find vo(t) using the inverse Laplace Transforms. (b) vsrc(t)=2 cos 2t V, determine the steady state output vo(t). + 0.50, 1H 192 w + + + USRC 1 F V, 212 vo
Please clear step by step and correct answers thumb
up
An RL circuit network is shown below in Figure 2. + Vri(t) W R1 vs(t) R2 Figure 2 RL circuir network 1. If the system input is the voltage of power source (t) and the system output is VRI(!) (voltage across RI), write the transfer function T/s) (Do not plug in any detail value) (10 point) Use R1-19, R2-122, L=1H and assume zero initial condition for all following questions, 2....
Problem 4.1 For the circuit shown in Fig. 4.1, there is no initial energy storage. Draw and label the circuit in the s- domain and use it to determine H(s)=V_(s)/Vsrc(s). Using H(s) and given: (a) vsrc(t)= e'u(t) V, find vo(t) using the inverse Laplace Transforms. (b) vsrc(t)=2 cos 2t V, determine the steady state output volt). 0.502 122 1н + USRC 1 F V, 22 VO Fig. 4.1
3) For the circuit shown in figure 03, the initial condition is zero. (a) Find Vo(s) using Thevenin's theorem (b) Apply initial and final value theorem to find Vo(t-0) and Volt-M) from Vo(s) (c) Obtain Volt) and from that find the values of Volt = 0) and vdt→ again Figure 03
subject: signals and systems
2. Consider the electric circuit shown in Fig. ??, L = 1H, C = 1F. • Determine the differential equation that relates the input (t) to output y(t). Recall that ic(t) = C2C and vy(t) = • Find the characteristic equation for this circuit. • Determine the zero-input response given an initial capacitor voltage of one volt and an initial inductor current of zero ampere. That is, find yo(t) given uc(0) = 2V and iL(0) =...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a step voltage of sv and the output is the voltage across the capacitor vot) a. Find the output voltage in Laplace domain. Find the output voltage as a function of time (assume the initial voltage across the capacitor is zero). Sketch the output voltage. Find the time constant and settling time. . c. (b) Given the following system G (s)-=-: i Find the differential...
The input to the circuit shown in Fig. 2 is the voltage source v(t). The output is the voltage across the capacitor, v(t). Determine the output of this circuit as a function of time t when the input is v.(t)-8+12u(t) V 40 18 s(t) 160 Fig. 2
Neatly shown work please!
Use the Engineering approach to find the following (assuming: ve(0) given): a) derive the zero- input response of the circuit, b) derive the impulse response of the circuit, and c) derive the zero- state response to a step input (You are required to perform convolution by using the graphical method on this part) A. 8. Draw the s-domain circuit (use a current source for the capacitor initial condition) for the circuit and perform s-domain analysis to...
Question 2 (10%) The input to the circuit shown in Fig. 2 is the voltage source vs(t). The output is the voltage across two open terminals, vo(). If v()-3-(t) V, the output is the voltage vo()-10+Se30* V for 20. Determine the values of Ri and R2. 2 sa) olt) Fig. 2
I want the answer for Part B I have the answer for Part
A-Q1 I uploaded it
2 H I F ua 212 < > 0.5% on Y; 4Ω Figure 1 PART A: MATHEMATICAL MODEL AND TIME DOMAIN ANALYSIS (5%) 1) For the circuit of Figure 1, determine the transfer function relating the output voltage (s) to the input voltage V(s). Assuming zero initial condition, obtain the output response vo(t) to an input step with 6V amplitude, that is vi(t)6...
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Amplitude=3;
fs=8000;
n=0:399;
t=0:1/fs: n*1/fs-1/fs;
signal=3+3*cos(2*pi*1100*t)+3*cos(2*pi*2200*t)+3*cos(2*pi*3300*t);
fftSignal= fft(signal);
fftSignal=f ftshift (fftSignal);
f=fs/2*linspace(-1,1,fs);
plot(f,abs(fftsignal);
xlabel('Frequency(Hz)’)
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