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1. Find the numerical expression for the transfer function from Vi(t) to V.(t), for each circuit ...
1. (a) sketch the Bode magnitude and phase plots of a transfer function T(W) = Vo(w)...
1. (a) sketch the Bode magnitude and phase plots of a transfer function T(W) = Vo(w) given Wo = 27x1oʻrad/s. Vi (w) (l+ges/wo2 g (6) Calculate the half-power or 3-dB Cut-off frequency of the above transfer function, and the phase LT(W) at the 3-dB cut-off frequency.
3. The operational amplifier in the circuit in figure is ideal. a) Find the numerical expression...
3. The operational amplifier in the circuit in figure is ideal. a) Find the numerical expression for the transfer function H(S) = V/V. b) Give the numerical value of each zero and pole of H(s). C2 = 4 uF R2 = 10 k12 w 250 2 32 4F Bi Ci to+X-8v
For the summing circuit shown below, find the voltage vi. 2k2 W 1k2 +) 4 V...
For the summing circuit shown below, find the voltage vi. 2k2 W 1k2 +) 4 V 2ko t Vo=-10 V vl 에 V1= V
Question 1 (15 points) Consider the circuit below with vi as the input and v, as...
Question 1 (15 points) Consider the circuit below with vi as the input and v, as the output. Let the component values be R = 1001 and C = 1000F. C + v;(t) vo(t) Answer the following questions using the formulas from the lecture slides: 1. What is the type of this filter? (1 points) 2. Write down the expression for the transfer function H(w) of the circuit. (4 points) 3. Write down the expression for frequency response |H(w) of...
Find the transfer function H(jω) for the circuit above as a function of jω. (Leave R...
Find the transfer function H(jω) for the
circuit above as a function of jω. (Leave R and L as variables).
Assume V R to be the output and V S to be the input.
С L RVR(t) vs (t) A. Find the transfer function H(jo) for the circuit above as a function of jaw. (Leave R and L as variables). Assume V to be the output and V to be the input. S R B. Find the Magnitude and Phase...
For the circuit shown in the figure above: Obtain an expression for H() Vo/Vi in standard form Generate spectral plots for the magnitude and phase of H (w), given that R-100Ω, L-0.1 mH, and C-1 μF De...
For the circuit shown in the figure above: Obtain an expression for H() Vo/Vi in standard form Generate spectral plots for the magnitude and phase of H (w), given that R-100Ω, L-0.1 mH, and C-1 μF Determine the cutoff frequency we and the slope of the magnitude (in dB) when wwc >1
For the circuit shown in the figure above: Obtain an expression for H() Vo/Vi in standard form Generate spectral plots for the magnitude and phase of H (w),...
Using Matlab, plot the magnitude and phase of the transfer function (vo/vi) vs. frequency range 1-100...
Using Matlab, plot the magnitude and phase of the transfer
function (vo/vi) vs. frequency range 1-100 kHz. Use log scale for
the frequency axis, dB scale for the magnitude axis, and degrees
for the phase axis. Note dB = 20log10(vo/vi). The 10 stands for
base 10. I need help writing a MATLAB code to output this plot and
also coming up with the vo/vi function itself.
0.1807 H 1402 nF 0.1624 H 1.560nF 1.559 mH
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...
The input to the below op-amp circuit is the source voltage vi(t) and the response is...
The input to the below op-amp circuit is the source voltage vi(t) and the response is the voltage across Rư, vo(t). Design this circuit to satisfy the following two specifications: (a) The phase shift at w = 1000 rad/s is 225 degree. (b) The gain at high frequencies is 10. Ri C = 0.1 uF vilo o Rız volt)
For the circuit shown below (1) Please derive an expression for the transfer function H(jco)- Vout/Vin....
For the circuit shown below (1) Please derive an expression for the transfer function H(jco)- Vout/Vin. (2) Sketch the corresponding Bode magnitude and phase plots, and please indicate the slope. 50Ω 250 mF 100 Ω 250 mF in out
1. (a) sketch the Bode magnitude and phase plots of a transfer function T(W) = Vo(w) given Wo = 27x1oʻrad/s. Vi (w) (l+ges/wo2 g (6) Calculate the half-power or 3-dB Cut-off frequency of the above transfer function, and the phase LT(W) at the 3-dB cut-off frequency.
3. The operational amplifier in the circuit in figure is ideal. a) Find the numerical expression for the transfer function H(S) = V/V. b) Give the numerical value of each zero and pole of H(s). C2 = 4 uF R2 = 10 k12 w 250 2 32 4F Bi Ci to+X-8v
For the summing circuit shown below, find the voltage vi. 2k2 W 1k2 +) 4 V 2ko t Vo=-10 V vl 에 V1= V
Question 1 (15 points) Consider the circuit below with vi as the input and v, as the output. Let the component values be R = 1001 and C = 1000F. C + v;(t) vo(t) Answer the following questions using the formulas from the lecture slides: 1. What is the type of this filter? (1 points) 2. Write down the expression for the transfer function H(w) of the circuit. (4 points) 3. Write down the expression for frequency response |H(w) of...
Find the transfer function H(jω) for the
circuit above as a function of jω. (Leave R and L as variables).
Assume V R to be the output and V S to be the input.
С L RVR(t) vs (t) A. Find the transfer function H(jo) for the circuit above as a function of jaw. (Leave R and L as variables). Assume V to be the output and V to be the input. S R B. Find the Magnitude and Phase...
For the circuit shown in the figure above: Obtain an expression for H() Vo/Vi in standard form Generate spectral plots for the magnitude and phase of H (w), given that R-100Ω, L-0.1 mH, and C-1 μF Determine the cutoff frequency we and the slope of the magnitude (in dB) when wwc >1
For the circuit shown in the figure above: Obtain an expression for H() Vo/Vi in standard form Generate spectral plots for the magnitude and phase of H (w),...
Using Matlab, plot the magnitude and phase of the transfer
function (vo/vi) vs. frequency range 1-100 kHz. Use log scale for
the frequency axis, dB scale for the magnitude axis, and degrees
for the phase axis. Note dB = 20log10(vo/vi). The 10 stands for
base 10. I need help writing a MATLAB code to output this plot and
also coming up with the vo/vi function itself.
0.1807 H 1402 nF 0.1624 H 1.560nF 1.559 mH
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...
The input to the below op-amp circuit is the source voltage vi(t) and the response is the voltage across Rư, vo(t). Design this circuit to satisfy the following two specifications: (a) The phase shift at w = 1000 rad/s is 225 degree. (b) The gain at high frequencies is 10. Ri C = 0.1 uF vilo o Rız volt)
For the circuit shown below (1) Please derive an expression for the transfer function H(jco)- Vout/Vin. (2) Sketch the corresponding Bode magnitude and phase plots, and please indicate the slope. 50Ω 250 mF 100 Ω 250 mF in out
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