Design a full-wave rectifier based on the circuit shown in Figure 3.1 below: N1: N2 + D3 D1 RL vs Figure 3.1 The required specification for the full-wave rectifier circuit includes the peak output...

please help me with this questionDesign a full-wave rectifier based on the circuit shown in Figure 3.1 below:<br>N1: N2<br>+<br>D3<br>D1<br>RL<br>vs<br>Figure 3.1<br>The required specification for the full-wave rectifier circuit includes the peak output voltage of<br>5 V, delivering 100 mA to the load RL, and producing an output with a ripple of not more than<br>5 percent. An input line voltage of 220 V (RMS), 50 Hz, is available. Given Vy= 0.7 V.<br>(a) Calculate Vs (max).<br>(b) Find the required turn ratio for the transformer.<br>(c) Determine the Peak Inverse Voltage (PIV).<br>(d) What is the effective load resistance?<br>(e) Determine the required capacitance of the filter capacitor.<br>

Extracted text: Design a full-wave rectifier based on the circuit shown in Figure 3.1 below: N1: N2 + D3 D1 RL vs Figure 3.1 The required specification for the full-wave rectifier circuit includes the peak output voltage of 5 V, delivering 100 mA to the load RL, and producing an output with a ripple of not more than 5 percent. An input line voltage of 220 V (RMS), 50 Hz, is available. Given Vy= 0.7 V. (a) Calculate Vs (max). (b) Find the required turn ratio for the transformer. (c) Determine the Peak Inverse Voltage (PIV). (d) What is the effective load resistance? (e) Determine the required capacitance of the filter capacitor.

Jun 11, 2022
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