The following three phase inverter in Figure 1 below is supplied by a DC voltage of Vpc = 1000V and connected to the star connection of resistive load, R=60n. The load frequency is 50Hz. Assume that three switches are conducted at each interval. State the sequence number of conducting transistor for each interval and illustrate the equivalent circuit connection of load for each interval. Based on the equivalent circuit connection of load, determine the value of line voltage Vry and value of phase voltage VrN- Provide your answers in Table 1. (C3,CLO1)

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T1
T3
T5
vs
T6
T2
Figure 1
Transcribed Image Text:T1 T3 T5 vs T6 T2 Figure 1
The following three phase inverter in Figure 1 below is supplied by a DC voltage of
VDc = 1000V and connected to the star connection of resistive load, R=60n. The load
frequency is 50HZ. Assume that three switches are conducted at each interval. State the
sequence number of conducting transistor for each interval and illustrate the equivalent
circuit connection of load for each interval. Based on the equivalent circuit connection
of load, determine the value of line voltage VRy and value of phase voltage VRN.
Provide your answers in Table 1. (C3,CLO1)
Duration Switch
VRN
VyN
VRY
Mode
0°-60°
60°-120°
120°-180°
180°-240°
240°-300°
300°-360°
Table 1
Transcribed Image Text:The following three phase inverter in Figure 1 below is supplied by a DC voltage of VDc = 1000V and connected to the star connection of resistive load, R=60n. The load frequency is 50HZ. Assume that three switches are conducted at each interval. State the sequence number of conducting transistor for each interval and illustrate the equivalent circuit connection of load for each interval. Based on the equivalent circuit connection of load, determine the value of line voltage VRy and value of phase voltage VRN. Provide your answers in Table 1. (C3,CLO1) Duration Switch VRN VyN VRY Mode 0°-60° 60°-120° 120°-180° 180°-240° 240°-300° 300°-360° Table 1
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