List of Figures
- Figure 1: DC-DC Converters
- Figure 2: Boost Converter
- Figure 3: State 1 of a Boost Converter
- Figure 4: State 2 of a Boost Converter
- Figure 5: Start-Up Panel of Boost Converter Laboratory
- Figure 6: Changing the Resistive Load Value
- Figure 7: Changing the Inductive Load Value
- Figure 8: Boost Panel with a Resistive Load of 25 ohms
- Figure 9: Boost Panel with an Inductive Load with R=12.5 ohms and L =20 mH
- Figure 10: Buck Converter
- Figure 11: State 1 of a Buck Converter
- Figure 12: State 2 of a Buck Converter
- Figure 13: Start-Up Panel of Buck Converter Laboratory
- Figure 14: Buck Panel with a Resistive Load of 25 ohms
- Figure 15: Buck Panel with an Inductive Load with R=12.5 ohms and L =20 mH
- Figure 16: Buck-Boost Converter
- Figure 17: State 1 of a Buck-Boost Converter
- Figure 18: State 2 of a Buck-Boost Converter
- Figure 19: Start-Up Panel of Buck-Boost Converter Laboratory
- Figure 20: Buck-Boost Panel with a Resistive Load of 25 ohms
- Figure 21: Buck-Boost Panel with an Inductive Load with R=12.5 ohms and L =20 mH
List of Tables
- Table 1: Control Parameters of the Boost Converter
- Table 2: Control Buttons and LED Fuse Status Indicators
- Table 3: Content of Scopes and Displayed Waveforms
- Table 4: Boost Converter Nameplate Ratings
- Table 5: Effect of Varying Duty Cycle
- Table 6: Effect of Varying Switching Frequency
- Table 7: Effect of Varying DC Source Voltage
- Table 8: Effect of Changing the Boost Inductance
- Table 9: Effect of Changing the Boost Capacitance
- Table 10: Effect of Varying Duty Cycle (inductive load scenario)
- Table 11: Effect of Varying Switching Frequency (inductive load scenario)
- Table 12: Effect of Varying DC source Voltage (inductive load scenario)
- Table 13: Effect of Changing the Boost Inductance (inductive load scenario)
- Table 14: Control Parameters of the Buck Converter
- Table 15: Content of Scopes and Displayed Waveforms in Buck Converter Laboratory
- Table 16: Buck Converter Nameplate Ratings
- Table 17: Impact of Varying Duty Cycle
- Table 18: Impact of Varying Switching Frequency
- Table 19: Impact of Varying DC Source Voltage
- Table 20: Impact of Changing the Buck Inductance
- Table 21: Impact of Changing the Buck Capacitance
- Table 22: Impact of Varying Duty Cycle (inductive load scenario)
- Table 23: Impact of Varying Switching Frequency (inductive load scenario)
- Table 24: Impact of Varying DC source Voltage (inductive load scenario)
- Table 25: Impact of Changing the Buck Inductance (inductive load scenario)
- Table 26: Control Parameters of the Buck-Boost Converter
- Table 27: Content of Scopes and Displayed Waveforms in Buck-Boost Converter Laboratory
- Table 28: Buck-Boost Converter Nameplate Ratings
- Table 29: Outcome of Varying Duty Cycle
- Table 30: Outcome of Varying Switching Frequency
- Table 31: Outcome of Varying DC Source Voltage
- Table 32: Outcome of Changing the Buck-Boost Inductance
Table 33: Outcome of Changing the Buck-Boost Capacitance
- Table 34: Outcome of Varying Duty Cycle (inductive load scenario)
- Table 35: Outcome of Varying Switching Frequency (inductive load scenario)
- Table 36: Outcome of Varying DC source Voltage (inductive load scenario)
- Table 37: Outcome of Changing the Buck-Boost Inductance (inductive load scenario)