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Cell C O *73% 4G 4G DI 8:04 MTNSA Go Big Go Bozza 1.ll "ll O EID226A Unit 3 The voltage waveforms shown below are obtained from a three-phase power rectifier. Assume a supply frequency of 50HZ. The rectifier output before the inductive filter is denoted by VL and the load voltage after the inductive filter by Vo. VL 100 80 60 40 20 Vo 80 Measure 60 X1 X2 Average Average XI RMS Time 1.60000e-01 2.00000e-01 4.00000e-02 a 40 VL 8.66025e+01 8.66025e+01 -9.63443e-07 8.26991e+01 8.26991e+01 8.40682e+01 Vo 8.17085e+01 8.26722e+01 9.63646e-01 8.17359e+01 8.17359e+01 8.17373e+01 20 0.16 0.17 0.18 0.19 Time (s) Lanere apy diede leo e00 ond sope leod reeietenee of 120 Anglve e the vvovoferme ond epeg:f, Leoleulete

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Cell C O 873% 4G DI 8:05 MTNSA Go Big Go Bozza llll "ll 0.17 0.18 0.19 0.2 Time (s) Ignore any diode losses and consider a load resistance of 120. Analyse the waveforms and specify / calculate, 11) the period (one cycle, 360°) of the supply; 12) the rectifier pulse number; 13) the rectifier average output voltage; 14) the average output current; 15) the r.m.s. value of the output current; 16) the r.m.s. value of the harmonics present in the output current; 17) the dc current rating of the rectifier diodes; 18) the r.m.s. current rating of the rectifier diodes; 19) the peak repetitive reverse voltage rating of the rectifier diodes; 20) the peak repetitive forward current rating of the rectifier diodes; 21) the phase r.m.s. voltage of the three-phase supply; 22) the rectification efficiency of the converter; 23) the converter transformer utilisation factor;