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Design an active band-pass filter such that the center frequency is Fo-2.5 kHz, bandwidth is BW...
13.60 A second-order band-pass filter is required with a center frequency of fo 54 kHz and a pass...
13.60 A second-order band-pass filter is required with a center frequency of fo 54 kHz and a passband gain of +50 dB. If the filter is implemented using the circuit of Fig. 13.15 with C1-C2, choose appropriate values for Ri and R2. What is the resulting value of for the filter? What is its bandwidth? Ci Figure 13.15 Second-order active bandpass filter of the Sallen-Key type. R2 C2 Ri UIN OUT
13.60 A second-order band-pass filter is required with a...
A) Design a low-pass filter using the given circuitry with a cut-off value of 1 kHz and plot the ...
a) Design a low-pass filter using the given circuitry with a cut-off value of 1 kHz and plot the frequency response curve on the given axes 1.0 0.7 0.5 in out 0.0 101 102 103 104 10s Hz b) Design a band-pass filter using the given circuitry with a bandwidth of 500 Hz and a lower cut-off value of 100 Hz, and draw the frequency response curve. Keep all resistors at the same value (i.e. Ri-R-R3-R4). 1.0 0.7 0.5 0.0...
Design a parallel RLC band-pass filter to have the nominal center frequency f0 = 280 kHz and the 3dB bandwidth B = 7.9 k...
Design a parallel RLC band-pass filter to have the nominal center frequency f0 = 280 kHz and the 3dB bandwidth B = 7.9 kHz. Use only single, standard-valued components: 5% resistors, 10% capacitors and 10% IMS-5WD-40 inductors. Assume that inductor's Q is constant in the frequency range [0.1 - 1.0]ft, where ft is the 'TEST FREQUENCY Q' given in the IMS-5WD-40 data sheet. L = C = R =
TE Question 5 (20 marks) An active filter circuit is shown in Fig. 4. The cut-off frequency of this active filter is...
TE Question 5 (20 marks) An active filter circuit is shown in Fig. 4. The cut-off frequency of this active filter is 1590Hz. The Input impedance and voltage gain of this filter are 10k0 and -5VN respectively Vout R1 vin R2 C1 Fig. 4 By assuming the operational amplifier, A is ideal, answer the following questions: (a) () State the type of this active fiter. (i) Explain the characteristic of this active filter. [2 marks] 3 marks] (b) 0) Calculate...
Design an active unity-gain bandpass filter with center frequency 750 Hz and bandwidtg 250 Hz and...
Design an active unity-gain bandpass filter with
center frequency 750 Hz and bandwidtg 250 Hz and with 0.1 μF
capacitor, R1=6.4kΩ, R2=377Ω, and R3=12.7kΩ.
a)Discuss the circuit response with support of a Bode
magnitude plot.
b) Assume next that a load R_L is connected to the output of the
network at the terminal Vo(s). How does the frequency response of
the loaded configuration change?
c) Consider a broadband bandpass op amp filter with center
frequency 2.4 kHz and bandwidth 800...
Design Active Band Pass Filter with the following characteristics: Gain = 10 C = 0.1uF Find...
Design Active Band Pass Filter with the following characteristics: Gain = 10 C = 0.1uF Find Rl, Rh, Rin, Rf If this was a band reject filter what would the values of R1, and R2 be?
Design a -40 dB second order low pass active filter for a cut-off frequency of 3...
Design a -40 dB second order low pass active filter for a cut-off frequency of 3 kHz. You are free to choose the values of resistors and capacitors.
C V. Figure 2 A band-pass filter circuit This is the transfer function of a band-pass...
C V. Figure 2 A band-pass filter circuit This is the transfer function of a band-pass filter having R = R2 //R Center frequency, a[ 1/R' R C12 radians Bandwidth B2(R, C) radians Maximum Gain Ag- R/2R Band-Pass Filter Design Design a band-pass filter to obtain f-160 Hz, B-16 Hz and o- 10. Supply voltages of +20 and -20 Volts are available. Laboratory Measurements and Results . By applying sinusoidal voltage at the input and by varying its frequency, obtain...
Design a band pass filter (BPF) with a circuit shown below (ie find R, R, RF,...
Design a band pass filter (BPF) with a circuit shown below (ie find R, R, RF, RF) Assume: fi2 kHz f=100 Hz A.A 2 (the overall gain) Ci=0.01 uF Cl'-05pF R1-R1 - 10 K I R C1 Vi R Vo RF RF R1 R1 1 Hint: J2TRC
Design a band pass filter (BPF) with a circuit shown below (ie find R, R, RF, RF) Assume: fi2 kHz f=100 Hz A.A 2 (the overall gain) Ci=0.01 uF Cl'-05pF R1-R1 - 10...
Design a Delyiannis-Friend filter to satisfy the following specifications: Mid-band frequency fo = 100 kHz Mid-band...
Design a Delyiannis-Friend filter to satisfy the following specifications: Mid-band frequency fo = 100 kHz Mid-band voltage gain = 10 Pole Q = 4 Both capacitors should be 1 pF. Analyze your circuit for an ideal opamp, and with an opamp gain of 50 dB.
13.60 A second-order band-pass filter is required with a center frequency of fo 54 kHz and a passband gain of +50 dB. If the filter is implemented using the circuit of Fig. 13.15 with C1-C2, choose appropriate values for Ri and R2. What is the resulting value of for the filter? What is its bandwidth? Ci Figure 13.15 Second-order active bandpass filter of the Sallen-Key type. R2 C2 Ri UIN OUT
13.60 A second-order band-pass filter is required with a...
a) Design a low-pass filter using the given circuitry with a cut-off value of 1 kHz and plot the frequency response curve on the given axes 1.0 0.7 0.5 in out 0.0 101 102 103 104 10s Hz b) Design a band-pass filter using the given circuitry with a bandwidth of 500 Hz and a lower cut-off value of 100 Hz, and draw the frequency response curve. Keep all resistors at the same value (i.e. Ri-R-R3-R4). 1.0 0.7 0.5 0.0...
TE Question 5 (20 marks) An active filter circuit is shown in Fig. 4. The cut-off frequency of this active filter is 1590Hz. The Input impedance and voltage gain of this filter are 10k0 and -5VN respectively Vout R1 vin R2 C1 Fig. 4 By assuming the operational amplifier, A is ideal, answer the following questions: (a) () State the type of this active fiter. (i) Explain the characteristic of this active filter. [2 marks] 3 marks] (b) 0) Calculate...
Design an active unity-gain bandpass filter with
center frequency 750 Hz and bandwidtg 250 Hz and with 0.1 μF
capacitor, R1=6.4kΩ, R2=377Ω, and R3=12.7kΩ.
a)Discuss the circuit response with support of a Bode
magnitude plot.
b) Assume next that a load R_L is connected to the output of the
network at the terminal Vo(s). How does the frequency response of
the loaded configuration change?
c) Consider a broadband bandpass op amp filter with center
frequency 2.4 kHz and bandwidth 800...
C V. Figure 2 A band-pass filter circuit This is the transfer function of a band-pass filter having R = R2 //R Center frequency, a[ 1/R' R C12 radians Bandwidth B2(R, C) radians Maximum Gain Ag- R/2R Band-Pass Filter Design Design a band-pass filter to obtain f-160 Hz, B-16 Hz and o- 10. Supply voltages of +20 and -20 Volts are available. Laboratory Measurements and Results . By applying sinusoidal voltage at the input and by varying its frequency, obtain...
Design a band pass filter (BPF) with a circuit shown below (ie find R, R, RF, RF) Assume: fi2 kHz f=100 Hz A.A 2 (the overall gain) Ci=0.01 uF Cl'-05pF R1-R1 - 10 K I R C1 Vi R Vo RF RF R1 R1 1 Hint: J2TRC
Design a band pass filter (BPF) with a circuit shown below (ie find R, R, RF, RF) Assume: fi2 kHz f=100 Hz A.A 2 (the overall gain) Ci=0.01 uF Cl'-05pF R1-R1 - 10...
Design a Delyiannis-Friend filter to satisfy the following specifications: Mid-band frequency fo = 100 kHz Mid-band voltage gain = 10 Pole Q = 4 Both capacitors should be 1 pF. Analyze your circuit for an ideal opamp, and with an opamp gain of 50 dB.
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