1. Consider a low pass filter using R=1 k Ω and C=10 nF . (a) Find...

Consider a low pass filter using R=1kohm and C 10nF. (a) Find the frequeny where gain...

Consider a low pass filter using R=1kohm and C 10nF. (a) Find the frequeny where gain is 50%(f3db)? (b) Plot the Bode plot (log Gain vs.log f). (c) Plot the phase shift versus log f.

1. Can the phase angle for a single-stage low pass electronic filter be greater than 90...

1. Can the phase angle for a single-stage low pass electronic filter be greater than 90 degrees? Explain using ac circuit theory. 2. How to determine the cutoff frequency for a single-stage low pass electronic filter using a bode plot and phase plot?

Please show steps. Thank you Design an identical cascade unit gain active RC low pass filter...

Please show steps. Thank you Design an identical cascade unit gain active RC low pass filter of order 4. The cut frequency for the filter is 800Hz. Use 1.0uF capacitors. a) Draw the circuit and calculate the values of R. b) Express the transfer function of the filter H(s). c) Plot the Bode diagram of the frequency response of the filter. d) Estimate the output voltage if the filter is excited with an input voltage vi(t) = sin(15000t) e) What...

7) (a) Draw a circuit of a high pass RL filter b) Derive the expression for...

7) (a) Draw a circuit of a high pass RL filter b) Derive the expression for V_o/V_i of a high pass RL filter (c) Use the equation you derived in (b) to determine the gain when (i) the frequency is very low (ii) R = X_L (iii) the frequency is very high (d) Use the equation you derived in (b) to determine the phase angle when (i) the frequency is very low (ii) R = X_L (iii) the frequency is...

A low-pass filter consists of a 113 μF capacitor in series with a 155 Ω resistor....

A low-pass filter consists of a 113 μF capacitor in series with a 155 Ω resistor. The circuit is driven by an AC source with a peak voltage of 5.30 V . A. What is the crossover frequency fc? B. What is VC when f=1/2fc? C. What is VC when f=fc? D. What is VC when f=2fc?

Draw a 2nd order low pass filter with a flat passband gain of 5 to remove...

Draw a 2nd order low pass filter with a flat passband gain of 5 to remove the harmonic content of a 60 HZ square wave of triangular wave input. Design for a cut off frequency of 80 Hz. Use 50 K Ohm for the input resistance. Verify your answers using AC Sweep in PSPICE

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')...

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...

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.

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)....