Full-Wave Rectifier We can analyze the behavior of the half-wave rectifier and full-wave rectifier by using the technique below such that the diode behaves like a switch. For reverse bias diodes it is simply an open switch, and he forward bias of the diode is simply a closed switch. See illustration below. A V, = 5sinwt 1Kn 3 V. V = 5sinwt 1KA Z V. (A) reverse biased = open switch (B) forward biased = closed switch Let us also assume (as a first approximation) that the diode switches from reverse bias to forward bias at OV. In this activity, we will determine the behavior of the diode in the circuit below as we traverse time using f = 1000 Hz for the AC source frequency. D1 D2 1kn V = 5sinwt Vout D3 1. Using LTSpice, simulate the full-wave rectifier circuit, use diode: 1N4148. Show the plot simulation of Vi and Vo. Use transient analysis and plot for 5 periods; time start saving = 1p; use small "maximum timestep" for smoother plot. In your plot, indicate voltage points for 0, one-fourth, one-half, three-fourths and one period. You may do this by placing the cursor at each time and press F4. Alternatively, you can select from the menu bar > Plot Settings > Notes and Annotations > Label Curs. Pos. Change the background of your plot from black to white. To do this, go to the file menu > Tools > Color Preferences > Selected item drop down > Background and make the color mix to white. Remember to replace the color of your annotations from gray to any dark colors.

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Full-Wave Rectifier We can analyze the behavior of the half-wave rectifier and full-wave rectifier by using the technique below such that the diode behaves like a switch. For reverse bias diodes it is simply an open switch, and the forward bias of the diode is simply a closed switch. See illustration below. A A + V = 5sinwt Vo V, = 5sinwt Vo 1ΚΩ 1ΚΩ (A) reverse biased open switch (B) forward biased = closed switch Let us also assume (as a first approximation) that the diode switches from reverse bias to forward bias at OV. In this activity, we will determine the behavior of the diode in the circuit below as we traverse time using f = 1000 Hz for the AC source frequency. D1 D2 1kn V = 5sinwt V out D3 D4 1. Using LTSpice, simulate the full-wave rectifier circuit, use diode: 1N4148. Show the plot simulation of Vi and Vo. Use transient analysis and plot for 5 periods; time start saving = 1p; use %3D small "maximum timestep" for smoother plot. In your plot, indicate voltage points for 0, one-fourth, one-half, three-fourths and one period. You may do this by placing the cursor at each time and press F4. Alternatively, you can select from the menu bar > Plot Settings > Notes and Annotations > Label Curs. Pos. Change the background of your plot from black to white. To do this, go to the file menu > Tools > Color Preferences > Selected item drop down > Background and make the color mix to white. Remember to replace the color of your annotations from gray to any dark colors. Take a screen shot of the circuit and plot. Why is the input and output "offset" by some amount? Explain.