3.16 A three-phase, full-wave half-controlled rectifier bridge circuit is operating at a delay angle a = 67° when supplying full power. The per-phase inductance of the coupled transformer is 2 mH. The input voltage has an rms magnitude of 230 V per phase at 50 Hz. The load current in the d.c. side is 15 A at 200 V. It is required to: (a) Obtain the drop in the d.c. voltage due to current overlap. (b) Calculate the rms secondary voltage of the transformer. (c) Calculate the overlap angle.

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3.16 A three-phase, full-wave half-controlled rectifier bridge circuit is operating
at a delay angle a = 67° when supplying full power. The per-phase
inductance of the coupled transformer is 2 mH. The input voltage has an
rms magnitude of 230 V per phase at 50 Hz. The load current in the d.c.
side is 15 A at 200 V. It is required to:
(a) Obtain the drop in the d.c. voltage due to current overlap.
(b) Calculate the rms secondary voltage of the transformer.
(c) Calculate the overlap angle.
(d) Obtain the recovery angle while the converter in operating in the
inversion mode with 15 A, 200 V d.c. input.
(e) Obtain the firing angle for the conditions in (d).
[Ans: (a) 4.5 V, (b) 450 V, (c) 1.06°, (d) 67.14°, (e) 111.8°]
Transcribed Image Text:3.16 A three-phase, full-wave half-controlled rectifier bridge circuit is operating at a delay angle a = 67° when supplying full power. The per-phase inductance of the coupled transformer is 2 mH. The input voltage has an rms magnitude of 230 V per phase at 50 Hz. The load current in the d.c. side is 15 A at 200 V. It is required to: (a) Obtain the drop in the d.c. voltage due to current overlap. (b) Calculate the rms secondary voltage of the transformer. (c) Calculate the overlap angle. (d) Obtain the recovery angle while the converter in operating in the inversion mode with 15 A, 200 V d.c. input. (e) Obtain the firing angle for the conditions in (d). [Ans: (a) 4.5 V, (b) 450 V, (c) 1.06°, (d) 67.14°, (e) 111.8°]
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