Beginning with 115 VrmsAC at 60 Hz and using a transformer, design a full-wave rectified, filtered and regulated power supply tat will deliver a maximum regulated voltage of 13.6 VDC to a load. Assume the ripple voltage is 750mVpp. Assume the minimum load resistance is 10 Ohms and the max load resistance is an open circuit.
-What is the max voltage across the capacitor?
-Calculate C, the value of the capacitor
-Calculate the wattage and value of Rs.
-What wattage of zener diode is required?
-Draw the input waveform, the waveform across the capacitor, and the output waveform across the load for the positive and negative-going inputs.
Beginning with 115 VrmsAC at 60 Hz and using a transformer, design a full-wave rectified, filtered...
Design a FULL WAVE BRIDGE RECTIFIER circuit that will: Take 120volts ac, 60 hz, sinusoidal waveform from the wall power and convert it to a “regulated” dc value giving 15 volts +, - 1.0 volts across a 1200-ohm output load resistor with no more than 2% ripple voltage, all at a total component parts cost of less than $175.00 (US$). Your design process/ analysis is to be conducted by hand. Consider for this design task: Assume an ideal transformer and...
Design a FULL WAVE BRIDGE RECTIFIER circuit that will: Take 120volts ac, 60 hz, sinusoidal waveform and convert it to a “regulated “dc value giving 12 volts +, - 1 volt across a 2000-ohm output load resistor with no more than 2% ripple voltage. You may assume: a. An ideal power transformer as discussed in class. b. For hand computations, you must assume a diode given by Figure 4.8 page 185. c. A filter capacitor sized per the textbook equation...
It is required to use a FULL-wave rectifier to design a dc power supply that provides an average dc output voltage of 15 V. A maximum ripple voltage of ±1 V is allowed on the output voltage. The output voltage will feed a load resistance of 250 Ω. Assume a sinusoidal input voltage with the frequency of 60 Hz. Do not include a Zener diode in your design. (Assume V_D0)* = 0.7 V). a) Draw the circuit diagram. b) Calculate...
In the circuit shown, a center-tapped transformer is used to create a full- wave center-tapped configuration. Note that half of the secondary voltage appears across each half winding. 120V : 7.8V 120 Vrms) 60 Hz of 7 R } Vout a. Find the maximum value of Vout. Note that half of the total secondary voltage appears across each half of the secondary. b. Suppose the load resistance is 10 ohms. Find the required filter capacitance so that the peak-to-peak ripple...
A) Draw the circuit diagram and design a half wave rectifier AC-DC converter to deliver 12V-DC with a ripple of 10 mV for a load current of 0.5 A - Design means to find the capacitor value and the ratio of the turns in the transformer assuume the supply voltage is 120v and 60Hz B) Calculate the Peak Inverse Voltage, average and max current through the diode.
Use a transformer, a bridge rectifier IC, and a capacitor to design a battery charger. If the input power is from the regular power line (120rms, 60Hz) and the battery is 12-V battery. The peak-to-peak ripple voltage across the battery should be no more than 2V. Assume the battery internal resistance is 100. 1) Draw the circuit diagram; 2) Explain how it works; 3) Specify the value of the turns ratio of the transformer and peak inverse voltage of diode....
A full-wave diode rectifier supplies a 30Ω resistive load from a 400Hz, 110V single-phase AC supply. A capacitor is connected in parallel with the load. Calculate the capacitance required if the maximum peak-to-peak voltage ripple across the resistor is to be restricted to 10V. You may assume that the RC product of the resistance and capacitance will be significantly greater than the period of the AC waveform. State any other assumptions made.
QUESTION 5 (15 points) a. You have a power supply which is a full-wave rectifier with a capacitor filter. It operates from the mains and provides an output of Voc-20 V with 20% ripple, when the load current is 2 A Calculate the maximum and minimum values of the output waveform of this power supply. b. Now you will design a series voltage regulator between the power supply described in part (a) and an electronic device operating at 12 VDC...
please answer these 2 questions please i really need help with them for review thank you so much for your help a quick response will be greatly appreciated as i am studying now and have a test tomorrow thank you so much 7. A fixed input voltage, variable load resistance, Zener diode regulator circuit has the following known values: Vi = 20.7V, Vz = 7.5V, PzM = 300mW Calculate the series resistance required if a load resistance of 4700 causes...
QUESTION 5 (15 points) a. You have a power supply which is a full-wave rectifier with a capacitor filter It operates from the mains and provides an output of Voc-: 20 V with 20% ripple, when the load current is 2 A. Calculate the maximum and minimum values of the output waveform of this power supply. b. Now you will design a series voltage regulator between the power supply described in part (a) and an electronic device operating at 12...