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

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

List of Figures

  • Figure 1Simulated Circuit for the Study of the Single-Phase Two-Level Inverter

  • Figure 2: Single-Phase Two-Level Inverter
  • Figure 3: First Arm of the Single-Phase Two-Level Inverter
  • Figure 4: PWM Generation for the First Arm of the Single-Phase Two-Level Inverter
  • Figure 5: Load and Filter in the Single-Phase Two-Level Inverter
  • Figure 6: Measurements in the Single-Phase Two-Level Inverter
  • Figure 7: Start-Up Panel of the Single-Phase Inverter Laboratory – Inverter Mode Scenario
  • Figure 8: Second Panel in the Single-Phase Inverter Laboratory – LC Filter Scenario
  • Figure 9: Changing DC Input Voltage
  • Figure 10: Varying AC-source Phase-Shift; Load More Inductive
  • Figure 11: Varying AC-source Phase-Shift; Load More Capacitive
  • Figure 12: Varying PWM Frequency
  • Figure 13: Varying AC-source Amplitude to 75 V
  • Figure 14: Varying AC-source Amplitude to 90 V
  • Figure 15: Varying AC-source Phase-Shift; Load More Inductive and LC Filter On
  • Figure 16: Varying AC-source Phase-Shift; Load More Capacitive and LC Filter On
  • Figure 17: Simulated Circuit for the Study of the Three-Phase Two-Level Inverter

  • Figure 18: Three-Phase Two-Level Inverter
  • Figure 19: First Arm of the Three-Phase Two-Level Inverter
  • Figure 20: PWM Generation for the First Arm of the Three-Phase Two-Level Inverter
  • Figure 21: Load and Filter in the Three-Phase Two-Level Inverter
  • Figure 22: Measurements
  • Figure 23: Start-Up Panel - Inverter Mode Scenario
  • Figure 24: Second Panel – LC Filter Scenario
  • Figure 25: Changing DC Voltage Source
  • Figure 26: Changing AC-source Frequency
  • Figure 27: Synchronize Button Activated
  • Figure 28: Changing AC-source Phase-Shift; Load More Inductive
  • Figure 29: Changing AC-source Phase-Shift; Load More Capacitive
  • Figure 30: Neutral Connection Activated and Vdc set to 140 V
  • Figure 31: Changing PWM Frequency
  • Figure 32: Changing AC-source Amplitude to 75 V
  • Figure 33: Changing AC-source Amplitude to 82 V
  • Figure 34: Changing AC-source Phase-Shift; Load More Inductive and LC Filter On
  • Figure 35: Changing AC-source Phase-Shift; Load More Capacitive and LC Filter On

List of Tables

  • Table 1: The Switching States in the Single-Phase Two-Level Inverter
  • Table 2: Single-Phase Two-Level Inverter Parameters and Nameplate Ratings
  • Table 3: Control Parameters of the Single-Phase Two-Level Inverter
  • Table 4: Control Buttons and LED Fuse Status Indicators of the Single-Phase Inverter
  • Table 5: Content of Scopes and Displayed Waveforms of the Single-Phase Inverter
  • Table 6: Content of Displays of the Single-Phase Inverter
  • Table 7: Power Dissipated in LC Filter and the Single-Phase Converter Bridge
  • Table 8: Voltage Levels
  • Table 9: Varying PWM Frequency with LC Filter ON
  • Table 10: Varying PWM Frequency with LC Filter OFF
  • Table 11: The Switching States in a Three-Phase Two-Level Inverter
  • Table 12: Three-Phase Two-Level Inverter Parameters and Nameplate Ratings
  • Table 13: Control Parameters
  • Table 14: Control Buttons and LED Fuse Status Indicators
  • Table 15: Content of Scopes and Displayed Waveforms
  • Table 16: Content of Displays
  • Table 17: Power Dissipated in LC Filter and Converter Bridge
  • Table 18: Output Voltage Levels
  • Table 19: Impact of Neutral Connection
  • Table 20: Changing PWM Frequency with LC Filter ON
  • Table 21: Changing PWM Frequency with LC Filter OFF

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