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The asymptotic Bode plot shown below represents a lowpass filter with gain enhancement over a range...
The asymptotic Bode plot shown below represents a lowpass filter-amplifier with a break frequency of ....
The asymptotic Bode plot shown below represents a lowpass
filter-amplifier with a break frequency of
.
Design a circuit to be connected in cascade with the amplifier
such that the break frequency is extended to
.
wn1000rads A, dB 20 dB -40 dB/decade rad/s 1000 wn5000rads A, dB 20 dB -40 dB/decade rad/s 5000
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select &...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source Connect "Bode Plotter" to input and output of your circuit...
Design a lowpass filter, with cutoff frequencỵ 14 16 rad s w. The maximum gain of the filter should be A 17.46 dB, and...
Design a lowpass filter, with cutoff frequencỵ 14 16 rad s w. The maximum gain of the filter should be A 17.46 dB, and the filter gain at angularfrequencỵws 3519 rad should be no more than As -21.99 dB. a) Give a detailed analytical solution, leading to your filter order, and circuit parameters Sketchan approximate bode plot of your filter's frequency response, using a straight line approxi- mation Can you solve the problem? I think its 3th order if im...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolba...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F) frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source. Connect "Bode Plotter" to input and output of your...
Chapter 12, Problem 12.21 (Multistep) Part 1 Correct. Sketch the magnitude characteristic of the Bode plot...
Chapter 12, Problem 12.21 (Multistep) Part 1 Correct. Sketch the magnitude characteristic of the Bode plot for the transfer function 30(0.060 * jo + 1) jojo + 1)(0.0024 * ja + 1) H0) = Shown here is the radian frequency axis for w > 0. The labeled frequencies represent the break frequencies in the transfer function H(o) (not necessarily drawn to scale). -+ W + w W3 W (rad/sec) What are the numerical values of the break frequencies w1, wz,...
Please do 765 Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answ...
Please do 765
Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answer is required. ans:3 dB, w1-4 rad/sec, w2-12 rad/sec, and A- 3 volts. The system 1 Hamad Alrobayan R4-6 (al1 ohms) and 577) Refer to Figure 577. R1-2 R2-5 R3-9 C1- Fd C2-9 Fd. Determine 9 the transfer function v2 (s)/v1 (s)As/(s 2+Bs+D). Answers: A, B,D....
Consider the filter circuit (Figure 1) with R=500 N and C ==uF. Learning Goal: To understand...
Consider the filter circuit (Figure 1) with R=500 N and C ==uF. Learning Goal: To understand how to find the transfer function of a filter circuit and to be able to draw the asymptotes of the Bode magnitude and phase diagrams Bode plots are used to display the amplitude and phase of a transfer function. The amplitude is typically displayed by showing the magnitude of the transfer function on the vertical axis and the frequency on the horizontal axis using...
For the particular lowpass filter you constructed in lab (f3dB ~ 1 kHz) plot |H(f)| over...
For the particular lowpass filter you constructed in lab (f3dB ~
1 kHz) plot |H(f)| over the frequency range (0, 100 kHz) on a
semilogarithmic scale for the frequency, and use a linear scale in
dB for the vertical axis. To calculate|H(f)| simply solve for the
output voltage in terms of the input voltage—it should be a simple
voltage divider using the impedances of the capacitor and resistor.
using MatLab
R = 50
L= 0.1
C = 1X10^6
in T...
6) Use the RC filter to the right. a) (10pts) Find the voltage gain (Vo/Vin) of...
6) Use the RC filter to the right. a) (10pts) Find the voltage gain (Vo/Vin) of the circuit for very low frequencies, 12kΩ 10nF V va b) (10pts) Find the voltage gain of the previous answer in dB. c) (40pts) Use the provided semi-log grid to create an idealized Bode magnitude plot of the circuit's voltage gain. Be sure to label the cutoff frequency (Hz) and to properly represent any nonzero slopes. 6d) (20pts) Find the circuit's actual voltage gain...
QUESTION #2 PLEASE 1. Derive the transfer function for the circuit shown below. Plot H(s) versus...
QUESTION #2 PLEASE
1. Derive the transfer function for the circuit shown below. Plot H(s) versus frequency in Hertz, on a semilog scale. Ri 11.3 k Ri 22.6 k R R = 68.1 kN R3 C C 0.01 uF R2 Vout(s) Vin(s) C2 10 (s+5) H(s) = (s+100)(s5000) , (a) draw the magnitude Bode plot 2. For the transfer function and find the approximate maximum value of (H(jw) in dB, (b) find the value of w where 1 for w>5...
The asymptotic Bode plot shown below represents a lowpass
filter-amplifier with a break frequency of
.
Design a circuit to be connected in cascade with the amplifier
such that the break frequency is extended to
.
wn1000rads A, dB 20 dB -40 dB/decade rad/s 1000 wn5000rads A, dB 20 dB -40 dB/decade rad/s 5000
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source Connect "Bode Plotter" to input and output of your circuit...
Design a lowpass filter, with cutoff frequencỵ 14 16 rad s w. The maximum gain of the filter should be A 17.46 dB, and the filter gain at angularfrequencỵws 3519 rad should be no more than As -21.99 dB. a) Give a detailed analytical solution, leading to your filter order, and circuit parameters Sketchan approximate bode plot of your filter's frequency response, using a straight line approxi- mation Can you solve the problem? I think its 3th order if im...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F) frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source. Connect "Bode Plotter" to input and output of your...
Chapter 12, Problem 12.21 (Multistep) Part 1 Correct. Sketch the magnitude characteristic of the Bode plot for the transfer function 30(0.060 * jo + 1) jojo + 1)(0.0024 * ja + 1) H0) = Shown here is the radian frequency axis for w > 0. The labeled frequencies represent the break frequencies in the transfer function H(o) (not necessarily drawn to scale). -+ W + w W3 W (rad/sec) What are the numerical values of the break frequencies w1, wz,...
Please do 765
Hamad Alrobayan 1dvn the system in Fig 765 with corresponding asymptotic Bode-gain plot. 3 gldB-9 nput amplitude at w2 is A and output amplitude is B. Find B Only one numerical answer is required. ans:3 dB, w1-4 rad/sec, w2-12 rad/sec, and A- 3 volts. The system 1 Hamad Alrobayan R4-6 (al1 ohms) and 577) Refer to Figure 577. R1-2 R2-5 R3-9 C1- Fd C2-9 Fd. Determine 9 the transfer function v2 (s)/v1 (s)As/(s 2+Bs+D). Answers: A, B,D....
Consider the filter circuit (Figure 1) with R=500 N and C ==uF. Learning Goal: To understand how to find the transfer function of a filter circuit and to be able to draw the asymptotes of the Bode magnitude and phase diagrams Bode plots are used to display the amplitude and phase of a transfer function. The amplitude is typically displayed by showing the magnitude of the transfer function on the vertical axis and the frequency on the horizontal axis using...
For the particular lowpass filter you constructed in lab (f3dB ~
1 kHz) plot |H(f)| over the frequency range (0, 100 kHz) on a
semilogarithmic scale for the frequency, and use a linear scale in
dB for the vertical axis. To calculate|H(f)| simply solve for the
output voltage in terms of the input voltage—it should be a simple
voltage divider using the impedances of the capacitor and resistor.
using MatLab
R = 50
L= 0.1
C = 1X10^6
in T...
6) Use the RC filter to the right. a) (10pts) Find the voltage gain (Vo/Vin) of the circuit for very low frequencies, 12kΩ 10nF V va b) (10pts) Find the voltage gain of the previous answer in dB. c) (40pts) Use the provided semi-log grid to create an idealized Bode magnitude plot of the circuit's voltage gain. Be sure to label the cutoff frequency (Hz) and to properly represent any nonzero slopes. 6d) (20pts) Find the circuit's actual voltage gain...
QUESTION #2 PLEASE
1. Derive the transfer function for the circuit shown below. Plot H(s) versus frequency in Hertz, on a semilog scale. Ri 11.3 k Ri 22.6 k R R = 68.1 kN R3 C C 0.01 uF R2 Vout(s) Vin(s) C2 10 (s+5) H(s) = (s+100)(s5000) , (a) draw the magnitude Bode plot 2. For the transfer function and find the approximate maximum value of (H(jw) in dB, (b) find the value of w where 1 for w>5...
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