Design the component values for the series RLC bandreject filter so that the center frequency is...

Design the component values for the series RLC bandreject filter so that the center frequency is 5 kHz and the quality factor is 5. Use a 500 nF capacitor.

Important: Please.....Plot the circuit of your design, marking the output voltage. I think it means a sinewave on an X, Y, graph plot with v_o as X, and t(ms)>0 as Y. Is this possible here?

Solutions

Expert Solution

the output voltage is across the capacitor and inductor

verification'

MATLAB:

RESULT:

band reject filter

Manojponduru answered 3 weeks ago

Next > < Previous

Related Solutions

1.Design a parallel RLC bandpass filter, derive the transfer function H(s). Compute center frequency, Wo. Calculate...

1.Design a parallel RLC bandpass filter, derive the transfer function H(s). Compute center frequency, Wo. Calculate the cutoff frequencies Wc1 and Wc2, the bandwidth (Beta), and quality factor, Q. Compute the values for R and L to yield a bandpass filter with a center frequency of 5kHz and a bandwidth of 200Hz, using a 10nF capacitor.

Use a 5 nF capacitor to design a series RLC bandpass filter, as shown at the...

Use a 5 nF capacitor to design a series RLC bandpass filter, as shown at the top of Fig. 14.27.The center frequency of the filter is 8 kHz, and the quality factor is 2. a) Specify the values of R and L.using pspice b) What is the lower cutoff frequency in kilohertz? using pspice c) What is the upper cutoff frequency in kilohertz?using pspice d) What is the bandwidth of the filter in kilohertz?using pspice

Part 5 The frequency response of RLC circuits : Design a passive filter: Band Pass, ISM...

Part 5 The frequency response of RLC circuits : Design a passive filter: Band Pass, ISM Band 433.050 MHz to 434.790 MHz . Prepare a report to describe your design. Your results should include the following : i. Simulation of the designed filters by using any simulation software. ii. Attach a 1 kΩ resistor as a load to the initial design of your filter. Explain how the transfer function change. Does the type of filter change? Does the cut-off frequency...

The resonant frequency of an RLC series circuit is less than the frequency of the fem....

The resonant frequency of an RLC series circuit is less than the frequency of the fem. Does the current overtake this backward to the fem? Explain

Design a 4 th order band-pass, maximally flat lumped-element filter with center frequency 3 GHz and...

Design a 4 th order band-pass, maximally flat lumped-element filter with center frequency 3 GHz and 10% bandwidth. The characteristic impedance is 50 Ω. FR4 substrate εr = 4.4, d = 1.6 mm, and tan δ = 0.02, with copper conductors 17 μm thick.

Please design an oscillator with a a series LCR filter and an opamp.

A bandpass series filter has parameter values of R=150Ω , C=2μF and L=3mH . The filter...

A bandpass series filter has parameter values of R=150Ω , C=2μF and L=3mH . The filter is energized with a voltage source which has an internal resistance equal to 100Ω. Using Matlab, write a code to print Bode magnitude plots for the filter transfer function by itself and the transfer function of the filter modified by the source resistance?

Butterworth filter a)Design a 5th order low pass Butterworth low-pass filter with a cut-off frequency of...

Butterworth filter a)Design a 5th order low pass Butterworth low-pass filter with a cut-off frequency of 1592 Hz and a dc gain of 3dB. Find and present the mathematical transfer function of the filter, showing all your steps. b) Write a Matlab code to plot the magnitude of this function with a linear scale in dB units on the ordinate, and a log scale of frequency on the abscissa. The plot range should be: ordinate- linear scale from -100dB to...

a. Design a broadband Butterworth bandpass filter with a lower cutoff frequency of 500 Hz and...

a. Design a broadband Butterworth bandpass filter with a lower cutoff frequency of 500 Hz and an upper cutoff frequency of 4500 Hz. The passband gain of the filter is 20 dB. The gain should be down at least 15 dB at 200 Hz and 11.25 kHz. Use 20 nF capacitors in the high-pass circuit and 10 k\Omega resistors in the low-pass circuit. b) Draw a circuit diagram of the filter and label all the components.

Design an active high pass filter with a high frequency gain of 5 and a cutoff...

Design an active high pass filter with a high frequency gain of 5 and a cutoff frequency of 2kHz. Use a 0.1 uF capacitor in your design.

Subjects