28. A full-wave bridge rectifier with a 120-V rms sinusoidal input has a load resistor of I kfn. a. If silicon diodes are employed, what is the de voltage available at the load? b. Determine the required PIV rating of each diode. e. Find the maximum current through each diode during conduction. d. What is the required power rating of each diode?

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FIG. 2.172 Problem 27 2.7 Full-Wave Rectification 28. A full-wave bridge rectifier with a 120-V rms sinusoidal input has a load resistor of I kf2. a. If silicon diodes are employed, what is the de voltage available at the load? b. Determine the required PIV rating of each diode. e. Find the maximum current through each diode during conduction. d. What is the required power rating of each diode? 29. Determine v, and the required PIV rating of each diode for the configuration of Fig. 2.173. In addition, determine the maximum current through each diode. RA3 100 V Ideal diodes -100 V 2.2 k2 FIG. 2.173 Problem 29. "30. Sketch v, for the network of Fig. 2.174 and determine the de voltage available. PROBLEMS 125 1489 100 V Ideal diodes + -100 V 2.2 k2 2.2 k2 2.2 k2 1489 FIG. 2.174 Problem 30. *31. Sketch v, for the network of Fig. 2.175 and determine the de voltage available. 1489 170 V Ideal diodes 4.2.2 ka 2.2 kQ -170 V 2.2 k2 FIG. 2.175 Problem 31. 2.8 Clippers 32. Determine v, for each network of Fig. 2.176 for the input shown. 8 V Ideal 20 V 100 k2 2 ka -20 V FIG. 2.176 Problem 32. 33. Determine v, for each network of Fig. 2.177 for the input shown. 12 V Si 2.2 k2 Si 1.8 k2 10 k2 -12 V (а) (b) FIG. 2.177 Problem 33. 126 DIODE APPLICATIONS *34. Determine V, for each network of Fig. 2.178 for the input shown. 20 V Ideal Ideal 2.2 k2 C9 -5 V 6+5 V (a) (b) C15 C16 g