design an AM detector for 1Mhz frequency with a band width of 30khz. Use any capacitor...

When determining the function of a circuit (high-pass, low-pass, band-pass and band-reject) how do we use...

When determining the function of a circuit (high-pass, low-pass, band-pass and band-reject) how do we use frequency at 0 and finite frequency to determine the circuits function only given the circuit? I'm given a circuit and want to determine whether it's a high-pass, low-pass, band-pass or band-reject - all passive filters. I know I have to determine whether there is an open, closed, or short circuit at the inductor or capacitor (or both) but don't know how to determine these....

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...

A radio can be tuned into a particular station frequency by adjusting the capacitance in an...

A radio can be tuned into a particular station frequency by adjusting the capacitance in an L-C circuit. Suppose that the minimum capacitance of a variable capacitor in a radio is 4.19 pFpF . a. What is the inductance LLL of a coil connected to this capacitor if the oscillation frequency of the L-C circuit is 1.58 MHzMHz , corresponding to one end of the AM radio broadcast band, when the capacitor is set to its minimum capacitance? b. The...

Design a second-order band-pass filter to select the frequency range of 36khz +/- 20kHz. With the...

Design a second-order band-pass filter to select the frequency range of 36khz +/- 20kHz. With the aid of a gain and phase plot, explain how an unwanted oscillation can be avoided to attain stability. Provide a statement on what condition an oscillation occurs. Provide values of all components to the nearest standard (E24) resistor values (+/-5% tolerance) and capacitor values (+/-10% tolerance).

To analyze and design a passive, second-order bandreject filter using a series RLC circuit. A bandreject...

To analyze and design a passive, second-order bandreject filter using a series RLC circuit. A bandreject filter is needed for an equalizer, a device that allows one to select the level of amplification of sounds within a specific frequency band while not affecting the sounds outside that band. The filter should pass frequencies lower than 1.4 kHz and have a resonant frequency of 3.8 kHz. A 5.0 μF capacitor and any needed resistors and inductors are available to be used...

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 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.

An active low pass filter (with op-amp), the capacitor value is 500 pf, the resistor value...

An active low pass filter (with op-amp), the capacitor value is 500 pf, the resistor value is 1kΩ and the input signal source is 20 V. a)draw the complete circuit with the data provided in the example b) plot the frequency response graph of the filter, use at least 5 dots for the plot of the graph and identify in it the pass band and the attenuation band. c) determine the filter output voltage f = 100KHz and f =...

DON'T USE MATLAB to design a digital filter using the window method to meet the following...

DON'T USE MATLAB to design a digital filter using the window method to meet the following requirements: Stop band attenuation: ≥43 dB and <49 dB Pass band edge frequency: 3.2 kHz Stop band: 0 to 2.4 kHz Maximum pass band ripple: 0.0546 dB Phase response: Linear. Sampling frequency: 16 kHz Determine the first 6 filter coefficients. NB: Please don't use MATLAB to get the answers. do it manually!

To receive AM radio, you want an RLC circuit that can be made to resonate at...

To receive AM radio, you want an RLC circuit that can be made to resonate at any frequency between 500 and 1650 kHz. This is accomplished with a fixed 9.94 µH inductor connected to a variable capacitor. What range of capacitance (in nF) is needed? smallest value ________ nF largest value _________ nF