1. For the half-wave rectifier circuit of Figure 2–1A, the peak load voltage is approximately :(a) 6 V ¯.. 2. For an input frequency of 60 Hz, the period of the half-wave signal is approximately (a) 4 ms 3. Compared to the de output voltage of the half-wave rectifier of Figure 2-1A, the de output voltage of the full-wave bridge rectifier of Figure 2-1C is approximately (a) one-half as large 4. In this experiment, the rectifier circuit that has the lowest diode peak inverse voltage is the (a) half-wave rectifier (c) full-wave bridge rectifier (d) both a and c 5. In this experiment, the rectifier circuit that has the greatest de output voltage is the (a) half-wave rectifier (c) full-wave bridge rectifier (b) 12 V (c) 18 V - (d) 24 V (b) 8 ms (c) 16 ms (d) 32 ms (b) the same (c) twice as large ( ) (b) full-wave center-tapped rectifier ( ) (b) full-wave center-tapped rectifier TUIC ALL C ICUD r vO INEE D.

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1. For the half-wave rectifier circuit of Figure 2–1A, the peak load voltage is approximately (а) 6 V ".. 2. For an input frequency of 60 Hz, the period of the half-wave signal is approximately (а) 4 ms 3. Compared to the de output voltage of the half-wave rectifier of Figure 2-1A, the dc output voltage of the full-wave bridge rectifier of Figure 2-1C is approximately (a) one-half as large 4. In this experiment, the rectifier circuit that has the lowest diode peak inverse voltage is the (a) half-wave rectifier (c) full-wave bridge rectifier (d) both a and c 5. In this experiment, the rectifier circuit that has the greatest de output voltage is the (a) half-wave rectifier (c) full-wave bridge rectifier (b) 12 V (c) 18 V - (d) 24 V () (b) 8 ms (c) 16 ms (d) 32 ms (b) the same (c) twice as large (b) full-wave center-tapped rectifier (b) full-wave center-tapped rectifier ( ) THIS ALL FIGURE YOU NEED: IN4001 C.T v, peak)V, (peak) > 120 VAC I kN 60 Hz 12.6 VAC А. IN4001 V, (peak). .T. 12.6= VAC 120 VAC V. (peak)1 kN 60 Hz IN4001 в. C.T v, (peakà İN4001 (4) V, (peak)21 kN 120 VAC 12.6 VAC 60 Hz С. FIGURE 2–1 Schematic diagram of circuits.