1) Would it be possible if anyone could use the same exact values as stated from the question? 2) In addition, we would like to understand why Vmp = 120xroot2 / root3 ? 3) Also, how do we derive the voltage drop due to commutation? 4) Will there be a commutation period in your output waveform? If yes, where is it? 6-2 In the circuit of Fig. P6-2, the balanced three-phase voltages va, v, and v have an rms value of 120 V at 60 Hz. Assume L, - 5 mH and Ia- 10 A is a dc current. For the following two values of the delay angle a, obtain va, ia, and vs waveforms. Calculate the average value V, and the commutation interval u at (a) 45° and (b) 135° T2 T3 Figure P6-2 6-2 In the circuit of Fig. P6-2, the balanced three-phase voltages va, v, and v have an rms value of 120 V at 60 Hz. Assume L, - 5 mH and Ia- 10 A is a dc current. For the following two values of the delay angle a, obtain va, ia, and vs waveforms. Calculate the average value V, and the commutation interval u at (a) 45° and (b) 135° T2 T3 Figure P6-2