Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
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1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using t...
I need help with this Dynamics II electrical system analysis. Please provide detailed explanation...
I need help with this Dynamics II electrical system
analysis.
Please provide detailed explanation and show work.
Thank you.
3. Find the transfer function E, (s)/E, (s) of the circuit below using impedance methods Find expressions for the natural frequency a, and the damping ratio ζ . ei(t) For L-0.2H, 2 mF RI 10 ohms, R2 20 ohms, use MATLAB to calculatew, and ζ and then also plot the unit step response of the system. Apply the final value theorem...
thx!!!! Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in...
thx!!!!
Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in Figure 1. What is the value of the steady state gain(s), if any? b) If R1 1, R2 = 2n, C\ = 2- 10-3F, C 1-10-3F, calculate the time constants of the system (if any). c) Find the initial and final values of the unit impulse response of the circuit d) Derive the time-domain expression of the output if the input is the function...
Question 4. Refer to the circuit of Figure 4. R 802 50 uF с vi(t) v.(t)...
Question 4. Refer to the circuit of Figure 4. R 802 50 uF с vi(t) v.(t) Figure 4 a) Draw the circuit in the Laplace domain, and then apply basic circuit theory in the Laplace domain to show that the Laplace transfer function H(s) defined for this system is: HS) V.(5) V (5) sta where a= RC [8 Marks] b) Use Laplace methods to determine the output voltage vo(t) when the input voltage is defined as: v (1) 40(1) The...
Question 1 For the circuit shown in figure 1; i. Find the transfer impedance function, H(s)...
Question 1 For the circuit shown in figure 1; i. Find the transfer impedance function, H(s) = Vds(s) Find the poles and zeros for this transfer function and plot them on the s - Find the magnitude of the transfer function in decibels. [10] s-plane [8] ii [3] 2H 20 20 2 H Figure Question 2 The hybrid parameters (h-parameters) for the two -port network circuit in figure 2 are; 5 h=2 0.05 Find the equivalent impedance parameters (z-parameters) Find...
Prelab 10.1: Active lowpass filter Given the circuit shown in Figure 10.1 with Ri-R2-Rs-R4-R-1.0 [k2, and...
Prelab 10.1: Active lowpass filter Given the circuit shown in Figure 10.1 with Ri-R2-Rs-R4-R-1.0 [k2, and C 0.1 [uF (a) Represent the circuit in state-space form given by i(t) = ar(t) + bu(t), i.e., find the values of parameters a, b, c, and d. (b) Find the expression for the transfer function, G(s) the complex frequency (Laplace) domain. (c) Find the expression of the frequency transfer function H(f) and the value of the half power frequency, fB in Hz (d)...
An RC circuit is shown below. Using the values R = 399 ohms, and C =...
An RC circuit is shown below. Using the values R = 399 ohms, and C = 928 PF (microfarads, 10°F) find the following. Determine the transfer function of this system in the following form What is the value of K? R - W
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function...
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function H(s) = Vour(s)/Vin(s). 12.) Values of C and L so that the transfer function has poles at s= -10 + 100j. 13.) The current Vour(t) if the initial conditions are zero and Vin(t) = 1(t) V (use C and L from 12). 14.) Plot the step response (found in question 13) over an appropriate time interval using Matlab 10KR 30 ks & +51
For the circuit shown below, 1) Find a relationship between L & R, and C &...
For the circuit shown below, 1) Find a relationship between L & R, and C & R, such that the impedance looking into the network Zin(s) = R. Find the frequency domain transfer function from the input to each output, what is the function performed by each arm? 2) ol in
Verify the following using MATLAB 2) (a) Consider the following function f(t)=e"" sinwt u (t (1)...
Verify the following using MATLAB
2) (a) Consider the following function f(t)=e"" sinwt u (t (1) .... Write the formula for Laplace transform. L[f)]=F(6) F(6))e"d Where f(t is the function in time domain. F(s) is the function in frequency domain Apply Laplace transform to equation 1. Le sin cot u()]F(s) Consider, f() sin wtu(t). From the frequency shifting theorem, L(e"f()F(s+a) (2) Apply Laplace transform to f(t). F,(s)sin ot u (t)e" "dt Define the step function, u(t u(t)= 1 fort >0...
0.1.For the following Laplace transform, F(s) a) Determine the steady state solution fs using the Final value theorem. b) Find the corresponding time function f(t) using partial fractions. a Use b...
0.1.For the following Laplace transform, F(s) a) Determine the steady state solution fs using the Final value theorem. b) Find the corresponding time function f(t) using partial fractions. a Use block diagram reduction to obtain the transfer function YIR of the following feedback system. Fuc R(s) Manifold Air b Ga(a) G1) Pressure Sparks pai FIQUREdle soed cortenal aetem
0.1.For the following Laplace transform, F(s) a) Determine the steady state solution fs using the Final value theorem. b) Find the corresponding...
I need help with this Dynamics II electrical system
analysis.
Please provide detailed explanation and show work.
Thank you.
3. Find the transfer function E, (s)/E, (s) of the circuit below using impedance methods Find expressions for the natural frequency a, and the damping ratio ζ . ei(t) For L-0.2H, 2 mF RI 10 ohms, R2 20 ohms, use MATLAB to calculatew, and ζ and then also plot the unit step response of the system. Apply the final value theorem...
thx!!!!
Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in Figure 1. What is the value of the steady state gain(s), if any? b) If R1 1, R2 = 2n, C\ = 2- 10-3F, C 1-10-3F, calculate the time constants of the system (if any). c) Find the initial and final values of the unit impulse response of the circuit d) Derive the time-domain expression of the output if the input is the function...
Question 4. Refer to the circuit of Figure 4. R 802 50 uF с vi(t) v.(t) Figure 4 a) Draw the circuit in the Laplace domain, and then apply basic circuit theory in the Laplace domain to show that the Laplace transfer function H(s) defined for this system is: HS) V.(5) V (5) sta where a= RC [8 Marks] b) Use Laplace methods to determine the output voltage vo(t) when the input voltage is defined as: v (1) 40(1) The...
Question 1 For the circuit shown in figure 1; i. Find the transfer impedance function, H(s) = Vds(s) Find the poles and zeros for this transfer function and plot them on the s - Find the magnitude of the transfer function in decibels. [10] s-plane [8] ii [3] 2H 20 20 2 H Figure Question 2 The hybrid parameters (h-parameters) for the two -port network circuit in figure 2 are; 5 h=2 0.05 Find the equivalent impedance parameters (z-parameters) Find...
Prelab 10.1: Active lowpass filter Given the circuit shown in Figure 10.1 with Ri-R2-Rs-R4-R-1.0 [k2, and C 0.1 [uF (a) Represent the circuit in state-space form given by i(t) = ar(t) + bu(t), i.e., find the values of parameters a, b, c, and d. (b) Find the expression for the transfer function, G(s) the complex frequency (Laplace) domain. (c) Find the expression of the frequency transfer function H(f) and the value of the half power frequency, fB in Hz (d)...
An RC circuit is shown below. Using the values R = 399 ohms, and C = 928 PF (microfarads, 10°F) find the following. Determine the transfer function of this system in the following form What is the value of K? R - W
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function H(s) = Vour(s)/Vin(s). 12.) Values of C and L so that the transfer function has poles at s= -10 + 100j. 13.) The current Vour(t) if the initial conditions are zero and Vin(t) = 1(t) V (use C and L from 12). 14.) Plot the step response (found in question 13) over an appropriate time interval using Matlab 10KR 30 ks & +51
For the circuit shown below, 1) Find a relationship between L & R, and C & R, such that the impedance looking into the network Zin(s) = R. Find the frequency domain transfer function from the input to each output, what is the function performed by each arm? 2) ol in
Verify the following using MATLAB
2) (a) Consider the following function f(t)=e"" sinwt u (t (1) .... Write the formula for Laplace transform. L[f)]=F(6) F(6))e"d Where f(t is the function in time domain. F(s) is the function in frequency domain Apply Laplace transform to equation 1. Le sin cot u()]F(s) Consider, f() sin wtu(t). From the frequency shifting theorem, L(e"f()F(s+a) (2) Apply Laplace transform to f(t). F,(s)sin ot u (t)e" "dt Define the step function, u(t u(t)= 1 fort >0...
0.1.For the following Laplace transform, F(s) a) Determine the steady state solution fs using the Final value theorem. b) Find the corresponding time function f(t) using partial fractions. a Use block diagram reduction to obtain the transfer function YIR of the following feedback system. Fuc R(s) Manifold Air b Ga(a) G1) Pressure Sparks pai FIQUREdle soed cortenal aetem
0.1.For the following Laplace transform, F(s) a) Determine the steady state solution fs using the Final value theorem. b) Find the corresponding...
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