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 Active Band Pass Filter with the following characteristics: Gain = 10 C = 0.1uF Find...
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 an active band-pass filter such that the center frequency is Fo-2.5 kHz, bandwidth is BW 400 Hz and gain is K-3 for Figure 10.5. Find the values for the capacitors, and resistors. Compute the theoretical values of Vout and |Av Vout / V l and record the results in Table 10.5-A. VEE -15V C1 R3 C2 R1 R2 Vout +VCC +15V Figure 10.5
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...
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 low pass filter with cutoff frequency of 400 hz and gain of 10 db at dc
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...
2. Design a low pass filter to meet the following specifications: Pass-band is from 0 to 1kHz Attenuation is -12dB (with respect to the pass-band) at 2kHz Pass-band gain is +6dB -All resistors are either 5kΩ or 10kΩ 2. Design a low pass filter to meet the following specifications: Pass-band is from 0 to 1kHz Attenuation is -12dB (with respect to the pass-band) at 2kHz Pass-band gain is +6dB -All resistors are either 5kΩ or 10kΩ
(OR) Design a wide band pass filter having fi-400 Hz, fi - 2 KHz and pass band gain of 4. Find the value of 0 of the filter design and explain.
Problem 2 a) Using 5 nF capacitors, design an active broad- band first-order bandreject filter with a lower cutoff frequency of 1000 Hz, an upper cut-off frequency of 5000 Hz, and a pass band gain of 10dB. b) Draw the schematic diagram of the filter. c) Write the transfer function to find H(jωo), where ωo is the center frequency of the filter. d) What is the gain (in decibels) of the filer at the center frequency? e) Using Matlab make...
Which of the following graphs is a Band Pass Filter? 10 10 Frequency (Hz) be Gain 10 10 10 10 Frequency (Hz) 10 10 Gain SA Frequency (II) Gain 10 10 10 Frequency (Hz)