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

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

1. Consider a low pass filter using R=1 k Ω and C=10 nF . (a) Find the frequency where the gain is 50% ( f 3dB) ? (b) Plot the Bode plot ( log Gain vs. log f ). (c) Plot the phase shift versus log f.

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. Design your own low-pass shelving filter which can boost the low frequency of given music...

MATLAB. Design your own low-pass shelving filter which can boost the low frequency of given music signal. After designing filter, apply the filter to the original music signal and observe the result. Include following plots. A. Magnitude and phase plot of your filter. B. Magnitude plot of original signal C. Magnitude plot of filtered signal

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...

A common use of capacitors as a reactive component is in a low-pass or high-pass filter,...

A common use of capacitors as a reactive component is in a low-pass or high-pass filter, both of which contain a resistor and a capacitor. A low-pass filter is one that passes through signals with frequencies lower than a particular cutoff frequency and causes attenuation in signals of higher frequency. A high-pass filter is one that passes through signals with frequencies higher than a certain cutoff and causes lower frequencies to attenuate, giving the two configurations their names. The cutoff...

Question 1: Using a low pass filter, you would have seen a rhythmic fluctuation of the...

Question 1: Using a low pass filter, you would have seen a rhythmic fluctuation of the baseline at 50 cycles/ second due to: Select one: Interference from the electrical supply The low frequency vibration of the building Noise picked up from the fluorescent lights The low frequency vibration of the air conditioning The noise from the chatter of other students Question 2: The neuron's membrane potential has the ability to integrate its inputs over time. This can be done via,...

A single-phase full-bridge inverter supplies a load of 10 W in series with an inductance of...

A single-phase full-bridge inverter supplies a load of 10 W in series with an inductance of 31.8 mH. The inverter is supplied by a 380 VDC source. (a) Sketch the inverter circuit as described above. (b) Calculate the rms value of the fundamental (n = 1) of the inverter output voltage assuming it is a square-wave. (c) Assuming a quasi square-wave output voltage waveform with a delay angle of 45°, calculate the rms value of the fundamental and the two...

1. Write a MATLAB function to determine the discrete-time Fourier Transform (H(?)) of the following sequence....

1. Write a MATLAB function to determine the discrete-time Fourier Transform (H(?)) of the following sequence. Plot its magnitude and phase. You can use the dtft command and use the abs, angle and plot commands to plot the results. x(n) = {4, 3, 2, 1, 2, 3, 4}. 2. Analytically determine H(z) and plot its magnitude and phase for the following system using freqz. y(n) = 2x(n) + x(n ? 1) ? 0.25y(n ? 1) + 0.25y(n ? 2). 3....

Please provide a brief overview on: chapter 21 1. Can I obtain the net electric field...

Please provide a brief overview on: chapter 21 1. Can I obtain the net electric field due to two or more point charges? 2. Can I obtain the net Coulomb force on a point charge due to two or more point charges? 3. Can I draw physical quantities (for example, velocity, forces or electric fields) involved in a given problem in a diagram? 4. Do I have a good "qualitative" understanding of the motion of a charged particle in a...

1. If a system has a gain greater than 1: ____________________ 2. If a system has...

1. If a system has a gain greater than 1: ____________________ 2. If a system has a gain equal to 1: ____________________ 3. If a system has a gain less than 1: ____________________ 4. If a system has a gain greater than 0 dB: __________________ 5. If a system has a gain equal to 0 dB: ____________________ 6. If a system has a gain less than 0 dB: __________________ 7. For a voltage amplifier to increase the source voltage: Rin...