design a stable 555 circuit to produce a 100- Hz square wave with a duty cycle...

1a. You have a square wave input of 333Hz frequency, 50% duty cycle, and a 4V...

1a. You have a square wave input of 333Hz frequency, 50% duty cycle, and a 4V peak to peak voltage used as an input for an RC circuit with a resistor value of 15k?. If you know the time required for the capacitor to charge through the resistor to 63.2% full of charge is 0.15ms, what would be the value of the capacitor? b. What would be the voltage in the capacitor when this has been discharged to about 36.8%...

Design a full-wave bridge rectifier circuit to deliver 10 volts DC with less than 0.1 volt...

Design a full-wave bridge rectifier circuit to deliver 10 volts DC with less than 0.1 volt peak-to-peak ripple into a 1 k load. Assume a 60 Hz input sin wave.

Write a program that creates a square wave output. There are two possible frequencies, 100 Hz...

Write a program that creates a square wave output. There are two possible frequencies, 100 Hz and 200 Hz, depending on an input switch position. i.e. if input is = 0, the frequency is 100 Hz, otherwise, frequency is 200 Hz.

1. Consider the astable multivibrator circuit given in Fig. .6 with C = 100 nF and...

1. Consider the astable multivibrator circuit given in Fig. .6 with C = 100 nF and VCC = 5 V. Fig. .6. Astable Multivibrator 555 IC Determine the values of the resistors RA and RB to set f = 1 kHz and duty cycle = 60 % RA = ...................... RB = ........................ Duty cycle = .......... % 2. Now consider the monostable circuit of Fig. .7. Assume RA = 100 k?. Fig. .7. Monostable Multivibrator 555 IC Determine C...

1. Design a full-wave bridge rectifier power supply to deliver an average voltage of 9V with...

1. Design a full-wave bridge rectifier power supply to deliver an average voltage of 9V with a peak-to-peak riple of 2V to a load. The average load current is 100 mA. Assume that ideal diodes and 60-Hz ac volatage sources of any amplitudes needed are avaialable. Draw the circuit diagram for your design, Specify the values of all components used. 2. Repeat Problem 1 with 2 diodes and out-of-phase voltage sources to form a full-wave rectifier.

100 Hz wave with an average power 40W and amplitude 1.5cm travels on a 4m long...

100 Hz wave with an average power 40W and amplitude 1.5cm travels on a 4m long string. The tension in the string is 60N. Determine the frequency when tension in string is 50N and amplitude and power remain constant. A. 105 Hz B. 105.70 Hz C. 104.66 Hz D. 118.3 Hz E. 97.70 Hz

A 100 Hz sound wave is traveling through the air. If we increase the frequency to...

A 100 Hz sound wave is traveling through the air. If we increase the frequency to 200 Hz, this will ________ the wavelength. A. quadruple (4 x) B. cut in half (1/2 X) C. double (2 x) D. not change (stay the same) Two identical objects, each with a mass M, are attached to each other via a spring with a spring constant k. The two objects are oscillating such that one is always moving in the opposite direction and...

Design an RLC series circuit with the following data: Z0 = 100 Ω (Characteristic impedance) Frequency...

Design an RLC series circuit with the following data: Z0 = 100 Ω (Characteristic impedance) Frequency = 1 kHz (Frequency where reactance is zero) R = Z0. a. Sketch the impedance on a log-log scale. What do you expect the phase to do? b. Simulate the circuit in QUCS and compare the result with your prediction/expectation. Also elaborate on your interpretation of the response. c. Can you identify Zo and Frequency features? How well does your design meet the requirements?...

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...