You are presented with the following controlled rectifier configurations: Configuration Тоpology Supply phase voltage Load resistance Load inductance (line to neutral) (Ohm) (Henry) Single phase half-wave Single-phase bridge Three-phase half-wave Three-phase bridge Six-phase half-wave Vs 100 Vs 100 Vs 100 4. Vs 100 5 Vs 100 infinite Assume no commutation diodes are used. State the smallest firing delay angle that will effect discontinuous current flow in the load for, 5. Configuration 1; 6. Configuration 2; 7. Configuration 3;
You are presented with the following controlled rectifier configurations: Configuration Тоpology Supply phase voltage Load resistance Load inductance (line to neutral) (Ohm) (Henry) Single phase half-wave Single-phase bridge Three-phase half-wave Three-phase bridge Six-phase half-wave Vs 100 Vs 100 Vs 100 4. Vs 100 5 Vs 100 infinite Assume no commutation diodes are used. State the smallest firing delay angle that will effect discontinuous current flow in the load for, 5. Configuration 1; 6. Configuration 2; 7. Configuration 3;
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Take Vs=333V round off to 3 decimal places
Transcribed Image Text:You are presented with the following controlled rectifier configurations:
Configuration
Topology
Supply phase voltage
Load resistance
Load inductance
(line to neutral)
(Ohm)
(Henry)
Single phase half-wave
Single-phase bridge
1
Vs
100
Vs
100
Three-phase half-wave
Vs
100
4
Three-phase bridge
Vs
100
Six-phase half-wave
Vs
100
infinite
Assume no commutation diodes are used. State the smallest firing delay angle that will effect discontinuous current
flow in the load for,
5. Configuration 1;
6. Configuration 2;
7. Configuration 3;
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