If the Arca is 1m' and the frequency is 50Hz at 100%. Find the Peak Voltage....
Generate a sawtooth waveform using a matlab code. Frequency of sawtooth wave is 50Hz. Peak peak amplitude is 2V. Using subplot window, plot the Saw tooth waveform and the folded saw tooth waveform Show the code and plots.
A series AC circuit has a power source with frequency f = 60 Hz, peak voltage of epsilon_0 = 5.0 V, resistance R = 0.50 omega, capacitance C = 320 mu F, and inductance L = 0.40 H. what is the period circuit? What is the maximum current through the inductor? What is the largest power reached in resistor? Suppose the power supply reaches maximum voltage at time t_1, how the long after t_1 does the current though the resistor...
Determine the following about the sine wave ac voltage shown: a. Amplitude and peak-to-peak voltage. b. Period, frequency and angular frequency (o). c. Write the sine wave equation for the ac voltage. d. Calculate the voltage at 2.5us. e. Calculate the voltage at 2ms. volts (v) 7 2 14 0 8 10 12 time (us
Question 1 (25 marks) a) A full wave rectifier has 40V peak secondary voltage, 2,000uF capacitor and 1022 load. You may take the line frequency as 50Hz and voltage drop across a diode as 0.7V. i. Calculate the peak dc voltage (VA). (2 marks) ii. Calculate the dc load voltage (Vdcloed). (4 marks) iii. Calculate the ripple voltage (AVLoad). (4 marks) b) The capacitance, inductance and load resistance of a Buck step-down dc-to-dc converter are 1.0uF, 10uH and 20.022 respectively....
Given taple 3,please solve for part(d)-part(f) hange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of eak-to-peak amplitude of the voltage across the capacitor for various frequencies (100, 4 500, 2000, and 5000 Hz), and complete Table 3, (0.4%) Table 3 Frequency (in Hertz) 100 400 800 1000 1500 2000 5000 Vc (peak-to-peak) ange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of 2V. Measure the 1500, 2000, and 5000 Hz), and...
An external AC voltage source provides a 100 V peak voltage to each of the circuits described below. Assume the peak voltage of the source remains 100 V when the frequency is changed. Select Decrease, Increase or Remain Unchanged to each of the following statements. A resistor, capacitor and an inductor are connected to the voltage supply and the circuit is at resonance. If the frequency of the source is decreased, the current in the circuit will __________. A: Increase...
An external AC voltage source provides a 100 V peak voltage to each of the circuits described below. Assume the peak voltage of the source remains 100 V when the frequency is changed. Select Decrease, Increase or Remain unchanged to each of the following statements. Decrease: The AC voltage source is connected to an inductor and a resistor in series. If the frequency of the source is increased the current n the circuit will A: Increase OB: Decrease C: Remain...
a. For the waveform shown in figures, determine (i) Peak value (ii) the peak-to-peak voltage the time period (iv) the frequency (v) The angular frequency. (Volls) 12V M 30 18 42 (ms) - 12V Figure 5 b. What is the frequency of the waveform shown in figure 6? m. -200 ms Figure 6 C. The figure 7 shows the variation of charge across the voltage of two capacitors namely A and B. Which of the two capacitors has higher value...
a. A 1V peak to peak sine wave with a frequency of 1 kHz is applied across a 5 kΩ resistor. Find an expression for the current through the resistor as a function of time. b. The same input voltage is applied across a single 2 µF capacitor, what is the current through the capacitor as a function of time? c. The frequency of the sine wave is now increased to 5 kHz. How does this affect the current in...
A 0.23?F capacitor is connected across an AC generator that produces a peak voltage of 9.00V . A) What is the peak current through the capacitor if the emf frequency is 100 Hz? B) What is the peak current through the capacitor if the emf frequency is 100 kHz?