Page Contents
Operation of the DC-DC Converter in Battery Charging Mode - Case A
Understanding the Panel
Figure 9 shows the primary Dashboards panel of the laboratory related to battery charging mode. This panel enables the user to manipulate the entire circuit, retrieve desired values, and observe plotted signals. Initially, all switches are turned off.
Figure 9: Case A- Main Dashboards panel.
The panel is to be operated as follows.
At the top, there are control parameters and switches for the simulated circuit. The user can modify circuit parameter values and change switch statuses according to the laboratory task. These parameters and switches are summarized in Table 2.
Parameters/Switches | Initial value/Status |
---|---|
Switching Frequency (Hz) | 22000 |
Duty Cycle | 0.612 |
Battery Voltage (V) | 400 |
Open/Closed loop | Off |
Data Acquisition | Off |
Table 2: Circuit parameters and Switches.
The simulation results are shown under five tabs. The tabs named as “Scope 1”, “Scope 2”, “Scope 3”, and “Scope 4” display the steady-state results; while the transient analysis results are displayed in “Scope 5” . The content of scopes of these five tabs are summarized in Tables 3 to 7.
Scope Label | Displayed Waveforms |
---|---|
Mean Output Voltage (V) | Average output voltage |
Battery Voltage (V) | Battery voltage |
Mean battery current (A) | Average battery current |
Table 3: Contents of Scope 1.
Scope Label | Displayed Waveforms |
---|---|
Output Voltage and Mean Output Voltage (V) | Output voltage and its average value |
Inductor Voltage and Mean Inductor Voltage (V) | Inductor voltage and its average value |
Inductor Current and Mean Inductor Current (A) | Inductor current and its average value |
Table 4: Contents of Scope 2.
Scope Label | Displayed Waveforms |
---|---|
DC Current and Mean DC Current (A) | DC current and its average value |
Power and Average Power (W) | Active power and its average value |
Table 5: Contents of Scope 3.
Scope Label | Displayed Waveforms |
---|---|
Carrier and Duty Cycle | PWM carrier waveform and duty cycle |
Pulse 1 | IGBT-1 pulse |
Pulse 2 | IIGBT-2 pulse |
Table 6: Contents of Scope 4.
Scope Label | Displayed Waveforms |
---|---|
Reference Current and Measured Battery Current (A) | Reference current and measured battery current |
Error in Current (A) | Error between reference current and measured current |
Reference Duty Cycle | Duty cycle |
Table 7: Contents of Scope 5.
Under “Scope 4” tab, there is the “Trigger” button, which allows to trig and display the waveforms of triggered scopes for transient operation.
Help Tab
Figure 10 shows the Help tab, in which a summary of the circuit parameters and the circuit configuration are presented.
Figure 10: Case A- Help Tab.
Harmonic Analysis Using ScopeView
The steps to follow in order to perform harmonic spectrum analysis using this laboratory are presented in Figures 11 to 14. These steps are based on the assumption that the HYPERSIM laboratory model is already open and running.
Figure 11: Selection of ScopeView.
Figure 12: Importing ScopeView template.
Figure 13: Selection of ScopeView template FFT_Lab3_1.
Figure 14: Run ScopeView template.
Operation of the DC-DC Converter in Battery Discharging Mode - Case B
Understanding the Panel
Figure 15 shows the main Dashboards panel of the laboratory related to battery discharging mode. This panel enables the user to manipulate the entire circuit, retrieve desired values, and observe plotted signals. Initially, all switches are turned off.
Figure 15: Case B- Main Dashboards panel.
The panel is to be operated as follows.
At the top, there are control parameters and switches for the simulated circuit. The user can modify circuit parameter values and change switch statuses according to the laboratory task. These parameters and switches are summarized in Table 8.
Parameters/Switches | Initial value/Status |
---|---|
Duty Cycle | 0.367 |
Battery Voltage (V) | 545 |
Open/Closed loop | Off |
Data Acquisition | Off |
Table 8: Buck mode- Circuit parameters and Switches.
The simulation results are presented under four tabs. The tabs named as “Scope 1”, “Scope 2”, and “Scope 3” display the steady-state results; while the transient simulation results are shown in “Scope 4” . The content of scopes of these tabs are summarized in Tables 9 to 12.
Scope Label | Displayed Waveforms |
---|---|
DC Link voltage (V) | DC link voltage |
Input Voltage and Mean Input Voltage (V) | Input voltage and its average value |
Table 9: Case B- Contents of Scope 1.
Scope Label | Displayed Waveforms |
---|---|
DC link Voltage (V) | DC link voltage |
Inductor Voltage and Mean Inductor Voltage (V) | Inductor voltage and its average value |
Inductor Current and Mean Inductor Current (A) | Inductor current and its average value |
Table 10: Case B- Contents of Scope 2.
Scope Label | Displayed Waveforms |
---|---|
DC Bus Current and Mean DC Current (A) | DC bus current and its average value |
DC Bus Power (W) | Active power (W) |
Inductor Current and Mean Inductor Current (A) | Inductor current and its average value |
Table 11: Case B- Contents of Scope 3.
Scope 4 subtab | Scope Label | Displayed Waveforms |
---|---|---|
Res1 | Reference Voltage and Measured DC Bus Voltage (V) | Reference voltage and measured bus voltage |
Vdc Error (V) | Error between reference voltage and measured voltage | |
Res2 | Reference Current and Measured Inductor Current (A) | Reference current and measured inductor current |
Reference Duty Cycle | Duty cycle |
Table 12: Case B- Contents of Scope 4.
Help Tab
Figure 16 shows the Help tab, in which a summary of the circuit parameters and the circuit configuration are presented.
Figure 16: Case B- Help Tab.