Give me 4 questions answered that I wrote above the drawing
the banduidth is B=5000Hz and the center frequency is f0=20000kHZ calculate the higher cut off frequency ?
the filter is ?
L = 0.2 H , How to choose R if of cut off frequency F=2000Hz?
R = 150 H , How to choose L if of cut off frequency F=3000Hz?
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Give me 4 questions answered that I wrote above the
drawing
the banduidth is B=5000Hz and...
Exercise 7: R t Envelope Detector y(0 The circuit in the figure above is a good approximation to ...
Exercise 7: R t Envelope Detector y(0 The circuit in the figure above is a good approximation to an ideal differentiator demodulator if С 0.1 h, where fe is the carrier frequency of the FM signal and fr is the cut-off frequency of the RC high-pass filter. The input FM signal is given by the following. DrM(t) 4 cos[10 nt + 10 T (5 sin(10 mt))] a) b) Specify the value of the resistance R such that fe-0.1 h, when...
Could someone please write worked solutions? Thanks R. Figure 1 Consider the filter circuit that is...
Could someone please write worked solutions? Thanks
R. Figure 1 Consider the filter circuit that is shown in Figure 1 1. Determine the voltage at node a in terms of the passive component variables. (7 marks) 2. Determine the Laplace transfer function H(s) = Vo/Vi. Subsequently, identify the resulting filter type including its order. (9 marks) 3. If R-1k and C-10HF, determine the gain, cut-off frequency, and the quality factor of this filter. (6 marks) 4. If the input signal...
(b) What do you understand by the filter effect of a RLC circuit? For the following circuits, wri...
(b) What do you understand by the filter effect of a RLC circuit? For the following circuits, write an expression for the eout/ein vs frequency qualitative analysis of how the output signal will behave for low frequency and high frequency, and sketch eout/ein vs f for each of the circuits. Do they filter signal as a function of frequency? Identify each type of filter erout: Make a 16]) R. OUT R2 e/ R 2 Ri L eoUT R eOuT
(b)...
b) An amplifier has values of V = 24mV and Vout gain of the circuit 2V....
b) An amplifier has values of V = 24mV and Vout gain of the circuit 2V. Calculate the dB voltage (2 marks) c) For the circuit shown in Figure 11, calculate the lower critical frequency due to the output RC circuit. Vec +15 V R 3.9 LO C V. R. 0.33 uF 2N3904 600 n 0.1 F 5.6 k REI 33 0 R 22 k 50 mVpp 1.5 k 100 F (5 marks) Figure 11 12. a) Name the type...
2. Consider the given C-R filter. a. (4) Determine the transfer function H(jo) in terms of...
2. Consider the given C-R filter. a. (4) Determine the transfer function H(jo) in terms of R, C and o. b. (3) Express the transfer function in polar form i.e. find the magnitude and phase expressions. c. (3) Calculate the half-power or cut-off frequency of this filter in rad/s for R = 250 2 and C= 15 nF. d. (4) Plot the magnitude response H(jo) using linear scale. Label both axes. Label maxima, minima, and cut-off frequency points numerically on...
Choose R=1.5 k Ω, and L=27 mH . Input from AWG is a Sine Wave, 4 V, 500 Hz
Circuit 3-RL High Pass Filter Circuit Choose R=1.5 k Ω, and L=27 mH . Input from AWG is a Sine Wave, 4 V, 500 Hz, Base 2 ms/div, Click on Network Analyzer. Choose start frequency 100 Hz and Stop frequency 100 kHz and steps 100 .Bode scale for Magnitude: Top 0 dB, Range 10 dBBode scale for Phase: Top 90°, Range 75%. (You can always play with the scale. Make sure the Phase and Magnitudo are seen well on the screen)Measure...
pls i want as fast as possible Q4 (20 pts) Design a series RLC band pass...
pls i want as fast as possible
Q4 (20 pts) Design a series RLC band pass filter as shown below, with low frequency cut-off at W = 100 rad/sec and high frequency cut-off at WH=10 krad /sec. (4 pts) a) Determine the center frequency wo and the bandwidth B (10 pts) b) Choose L-100 mH and calculate the values of R and C (6 pts) c) Find the magnitude of H(jw)= Vo / V, and evaluate it at www с...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Question 2 (20 points) Consider the circuit below with Vị as the input and v, as...
Question 2 (20 points) Consider the circuit below with Vị as the input and v, as the output. Let the component values be R = 33.2, C = 470uF and L = 250mH. R + + yo(t) L - Answer the following questions using the formulas from the lecture slides: 1. What is the type of this filter? (2 points) 2. Write down the expression for the transfer function H(w) of the circuit. (4 points) 3. Write down the expression...
HI GUYS CAN YOU HELP ME SOLVE THIS QUESTION ASAP PLS AND THANKS!! QUESTION 6 ONLY,...
HI GUYS CAN YOU HELP ME SOLVE THIS QUESTION ASAP PLS AND
THANKS!! QUESTION 6 ONLY, THE 15 MARK QUESTION. CAN YOU CALCULATE
THE THEOREATICAL VALUES WITH THESE 3 VALUES: 10HZ, 1KHZ, 10KHZ. AND
USING THIS VALUES. R = 1000Ω,C = 1µF, L = 0.23mh. not the L=44
thanks.
Exercise 2 [60 marks] RLC Circuit as a Low-pass Filter L 0000 in out Figure 2. RLC circuit 2 10 marks] Derive the second order input-output model (differential equation) for the...
Exercise 7: R t Envelope Detector y(0 The circuit in the figure above is a good approximation to an ideal differentiator demodulator if С 0.1 h, where fe is the carrier frequency of the FM signal and fr is the cut-off frequency of the RC high-pass filter. The input FM signal is given by the following. DrM(t) 4 cos[10 nt + 10 T (5 sin(10 mt))] a) b) Specify the value of the resistance R such that fe-0.1 h, when...
Could someone please write worked solutions? Thanks
R. Figure 1 Consider the filter circuit that is shown in Figure 1 1. Determine the voltage at node a in terms of the passive component variables. (7 marks) 2. Determine the Laplace transfer function H(s) = Vo/Vi. Subsequently, identify the resulting filter type including its order. (9 marks) 3. If R-1k and C-10HF, determine the gain, cut-off frequency, and the quality factor of this filter. (6 marks) 4. If the input signal...
(b) What do you understand by the filter effect of a RLC circuit? For the following circuits, write an expression for the eout/ein vs frequency qualitative analysis of how the output signal will behave for low frequency and high frequency, and sketch eout/ein vs f for each of the circuits. Do they filter signal as a function of frequency? Identify each type of filter erout: Make a 16]) R. OUT R2 e/ R 2 Ri L eoUT R eOuT
(b)...
b) An amplifier has values of V = 24mV and Vout gain of the circuit 2V. Calculate the dB voltage (2 marks) c) For the circuit shown in Figure 11, calculate the lower critical frequency due to the output RC circuit. Vec +15 V R 3.9 LO C V. R. 0.33 uF 2N3904 600 n 0.1 F 5.6 k REI 33 0 R 22 k 50 mVpp 1.5 k 100 F (5 marks) Figure 11 12. a) Name the type...
2. Consider the given C-R filter. a. (4) Determine the transfer function H(jo) in terms of R, C and o. b. (3) Express the transfer function in polar form i.e. find the magnitude and phase expressions. c. (3) Calculate the half-power or cut-off frequency of this filter in rad/s for R = 250 2 and C= 15 nF. d. (4) Plot the magnitude response H(jo) using linear scale. Label both axes. Label maxima, minima, and cut-off frequency points numerically on...
pls i want as fast as possible
Q4 (20 pts) Design a series RLC band pass filter as shown below, with low frequency cut-off at W = 100 rad/sec and high frequency cut-off at WH=10 krad /sec. (4 pts) a) Determine the center frequency wo and the bandwidth B (10 pts) b) Choose L-100 mH and calculate the values of R and C (6 pts) c) Find the magnitude of H(jw)= Vo / V, and evaluate it at www с...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Question 2 (20 points) Consider the circuit below with Vị as the input and v, as the output. Let the component values be R = 33.2, C = 470uF and L = 250mH. R + + yo(t) L - Answer the following questions using the formulas from the lecture slides: 1. What is the type of this filter? (2 points) 2. Write down the expression for the transfer function H(w) of the circuit. (4 points) 3. Write down the expression...
HI GUYS CAN YOU HELP ME SOLVE THIS QUESTION ASAP PLS AND
THANKS!! QUESTION 6 ONLY, THE 15 MARK QUESTION. CAN YOU CALCULATE
THE THEOREATICAL VALUES WITH THESE 3 VALUES: 10HZ, 1KHZ, 10KHZ. AND
USING THIS VALUES. R = 1000Ω,C = 1µF, L = 0.23mh. not the L=44
thanks.
Exercise 2 [60 marks] RLC Circuit as a Low-pass Filter L 0000 in out Figure 2. RLC circuit 2 10 marks] Derive the second order input-output model (differential equation) for the...
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