Design a bandpass filter with a lower cut off frequency fLO= 1 KHz and bandwidth B=...

Design a band-pass or band-rejection filter satisfying the following requirements: 1-Central Frequency 10 kHz 2-Bandwidth 1...

Design a band-pass or band-rejection filter satisfying the following requirements: 1-Central Frequency 10 kHz 2-Bandwidth 1 kHz 3-Gain of 20 dB or higher and then do the hand calculations and Gain versus frequency plots with 3 dB markdown.

Design a Butterworth Sallen-Key Low Pass Filter with the critical frequency, fc = 7.23 kHz. For...

Design a Butterworth Sallen-Key Low Pass Filter with the critical frequency, fc = 7.23 kHz. For design simplification in RC network, assume equal value for capacitor, C = 22nF while R has a ratio, m = 2. Use the quality factor, Q value from the Table .

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. Plot the circuit of your design, marking the output voltage.

Design an active-RC low pass second order Butterworth filter for a cutoff frequency of 1 kHz,...

Design an active-RC low pass second order Butterworth filter for a cutoff frequency of 1 kHz, and a pass band gain of 2 V/V. Use a 741 Op Amp. If using Table I, use a capacitor value of 0.1 μF for C and C1, otherwise you may use any capacitors available in the lab. If applicable, make an excel worksheet showing the calculations required for the above design.  Choose appropriate real resistor values for the designed circuit and simulate this circuit...

MATLAB FIR filter design. The audio file, covering the frequency range of roughly 0 to 3000...

MATLAB FIR filter design. The audio file, covering the frequency range of roughly 0 to 3000 Hz, is very badly corrupted with high?level noise. Your problem is to design a digital filter that will sufficiently attenuate the noise so that the audio speech is intelligible. (sorry but chegg doesn't allow me to attach the wav file) Here is the design template: clear, clc % clear all variables %% Read in the noisy audio signal from the file 'CapnJ.wav' using audioread...

Second order circuit as a band pass filter. 1. Consider a series RLC circuit of your...

Second order circuit as a band pass filter. 1. Consider a series RLC circuit of your choice with AC source. Find the resonance conditions (resonant frequency, quality factor cut-off frequencies and bandwidth. Simulate(multisim) the resonance condition by experimenting with AC signal of several different frequencies and comparing the output amplitudes. You need to show graphs of simulation with several different frequencies. Demonstrate that the simulation results confirm the calculated resonance effect. Make a band pass filter from circuit in (1)....

1.The resonant frequency of an RCL circuit is 3.0 kHz, and the value of the inductance...

1.The resonant frequency of an RCL circuit is 3.0 kHz, and the value of the inductance is 5.0 mH. What is the resonant frequency (in kHz) when the value of the inductance is 1.5 mH? 2. Part a of the drawing shows a resistor and a charged capacitor wired in series. When the switch is closed, the capacitor discharges as charge moves from one plate to the other. Part b shows the amount q of charge remaining on each plate...

Suppose a full-scale voice signal with bandwidth 10 kHz is sampled at the Nyquist rate and...

Suppose a full-scale voice signal with bandwidth 10 kHz is sampled at the Nyquist rate and quantized by using a b-bit uniform quantizer. The bit stream is then transmitted using binary PAM over an AWGN channel that is capable of passing frequencies in the range of [0, 200kHz]. 1. Suppose that the signal is transmitted at the maximum bit rate and the two-sided spectral density of noise at the receiver is 10-6 W/Hz. What is the required signal power to...

Question : Design the low and high pass filter for the signal, x(t) = 10 sin...

Question : Design the low and high pass filter for the signal, x(t) = 10 sin (10 t) + 1 sin (1000 t) by MATLAB Is below answer right? at ?High pass , 5row shouldn't this change from sin(100*t) ? sin(1000*t) x = 10*sin(10*t) + 1*sin(100*t); ?   x = 10*sin(10*t) + 1*sin(1000*t); ??? ..................................................................................................................................................... ?Low pass clc; rng default Fs=2000; t=linspace(0,1,Fs); x=10*sin(10*t)+sin(1000*t)%given signal n=0.5*randn(size(t));%noise x1=x+n; fc=150; Wn=(2/Fs)*fc; b=fir1(20,Wn,'low',kaiser(21,3)); %fvtool(b,1,’Fs’,Fs) y=filter(b,1,x1); plot(t,x1,t,y) xlim([0 0.1]) xlabel('Time (s) ') ylabel('Amplitude') legend('Original Signal','Filtered Data')...

Problem 3 you can use Matlab and also i give u the Problem 1 code its...

Problem 3 you can use Matlab and also i give u the Problem 1 code its on Matlab Using the same initial code fragment as in Problem 1, add code that calculates and plays y (n)=h(n)?x (n) where h(n) is the impulse response of an IIR bandpass filter with band edge frequencies 750 Hz and 850 Hz and based on a 4th order Butterworth prototype. Name your program p3.sce this is the Problem 1 code and the solutin clear; clc;...