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AC-to-DC Rectifiers - List of Figures and Tables

List of Figures

  • Figure 1: Single-Phase Diode Bridge Rectifier
  • Figure 2: Three-Phase Diode Bridge Rectifier
  • Figure 3: Three-Phase Thyristor Bridge Rectifier
  • Figure 4: Single-Phase Diode Bridge Rectifier With Resistive Load 
  • Figure 5: Positive Cycle of the Single-Phase Diode Bridge Rectifier
  • Figure 6Negative Cycle of the Single-Phase Diode Bridge Rectifier
  • Figure 7: Single-Phase Diode Bridge Rectifier With Smoothing Capacitor
  • Figure 8: Start-Up Panel of the Single-Phase Diode Bridge Rectifier Laboratory
  • Figure 9: Changing the Resistive Load Value
  • Figure 10: Changing the Inductive Load Value
  • Figure 11: Single-Phase Diode Bridge Rectifier Panel with a Resistive Load of 16.5 ohms
  • Figure 12: Single-Phase Diode Bridge Rectifier Panel with R=16.5 ohms and C= 470 µF
  • Figure 13: Single-Phase Diode Bridge Rectifier Panel with an Inductive Load (R=25 ohms, L=40 mH)
  • Figure 14: Three-phase Diode Bridge Rectifier With Smoothing Capacitor
  • Figure 15: Start-Up Panel of the Three-Phase Diode Bridge Rectifier Laboratory
  • Figure 16: Three-Phase Diode Bridge Rectifier Panel with a Resistive Load of 16.5 ohms
  • Figure 17: Three-Phase Diode Bridge Rectifier Panel with R=16.5 ohms and C= 470 µF
  • Figure 18: Three-Phase Diode Bridge Rectifier Panel with an Inductive Load (R=25 ohms, L=40 mH)
  • Figure 19: Three-phase Thyristor-based Rectifier
  • Figure 20: Waveforms of voltages and thyristor firing signals for a firing α angle set to 0°
  • Figure 21: Start-Up Panel of the Three-Phase Thyristor Bridge Rectifier Laboratory
  • Figure 22: Three-Phase Thyristor Bridge Rectifier Panel with an AC-source amplitude of 140V
  • Figure 23: Three-Phase Thyristor Bridge Rectifier Panel with R = 25 ohms, L = 40 mH

List of Tables

  • Table 1: Control Parameters of the Single-Phase Diode Bridge Rectifier
  • Table 2: Control and Switch Buttons
  • Table 3: Content of Scopes and Displayed Waveforms
  • Table 4: Effect of Varying Resistive Load
  • Table 5: Case 1- Varying Resistive Load With Smoothing Capacitor
  • Table 6: Case 2- Varying Resistive Load With Smoothing Capacitor
  • Table 7: Case 3- Varying Resistive Load With Smoothing Capacitor
  • Table 8: Effect of Varying Inductive Load
  • Table 9: Content of Scopes and Displayed Waveforms in Three-Phase Diode-based Rectifier
  • Table 10: Impact of Varying Resistive Load
  • Table 11: Case 1- Effect of varying Resistive Load With Smoothing Capacitor
  • Table 12: Case 2- Effect of varying Resistive Load With Smoothing Capacitor
  • Table 13: Case 3- Effect of varying Resistive Load With Smoothing Capacitor
  • Table 14: Impact of Varying Inductive Load
  • Table 15: Order of Conducting Thyristors for a Firing Angle of 0° when the Load is Resistive
  • Table 16: Control Parameters of the Three-Phase Thyristor Bridge Rectifier
  • Table 17: Control Buttons and LED Fuse Indicators
  • Table 18: Content of Scopes and Displayed Waveforms in Three-Phase Thyristor Bridde Rectifier
  • Table 19: Content of Displays
  • Table 20: Effect of Varying Fyring Angle
  • Table 21: Effect of Varying Fyring Angle with R=25 ohms
  • Table 22: Effect of Varying Fyring Angle (indutive load scenario)
  • Table 23: Effect of Varying Inductance

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