Multi phase two level inverter example
Extends from Modelica.Icons.ExamplesPackage (Icon for packages containing runnable examples).
Name | Description |
---|---|
MultiPhaseTwoLevel_R | Multi phase DC to AC converter with R load |
MultiPhaseTwoLevel_RL | Multi phase DC to AC converter with R-L load |
ThreePhaseTwoLevel_PWM | Test of pulse width modulation methods |
Multi phase DC to AC converter with R load
Plot current currentSensor.i[:]
, harmonic current magnitude fundamentalWaveCurrent[:].y_RMS
, harmonic voltage magnitude fundamentalWaveVoltage[:].y_RMS
. The instantaneous voltages voltageSensor.i[:]
and currents currentSensor.i[:]
directly show the switching pattern of the inverter. There is not smoothing effect due to an inductance in this example; see MultiPhaseTwoLevel_RL.
Extends from Modelica.Icons.Example (Icon for runnable examples).
Name | Description |
---|---|
m | Number of phases |
f | Switching frequency [Hz] |
f1 | Fundamental wave AC frequency [Hz] |
R | Resistance [Ohm] |
Multi phase DC to AC converter with R-L load
Plot current currentSensor.i[:]
, harmonic current magnitude fundamentalWaveCurrent[:].y_RMS
, harmonic voltage magnitude fundamentalWaveVoltage[:].y_RMS
. The instantaneous voltages voltageSensor.i[:]
directly show the switching pattern of the inverter.
Extends from Modelica.Icons.Example (Icon for runnable examples).
Name | Description |
---|---|
m | Number of phases |
f | Switching frequency [Hz] |
f1 | Fundamental wave AC frequency [Hz] |
R | Resistance [Ohm] |
L | Inductance [H] |
Test of pulse width modulation methods
A reference space vector (formed by real part = cosine and imaginary part = sine) of length √2*RMS and frequency 2 Hz is applied. The resulting switching patterns are applied to a threephase twolevel bridge with switching frequency 100 Hz, fed by DC voltage = √2*√3*1 where 1 is the theoretical maximum voltage from terminal to neutral. The resulting voltages with reference to midpoint of the DC voltage are measured.
The RMS of the first harmonic of the first of these voltages is calculated. Please note that the value of the first harmonic is vaild after the first period (i.e. 0.5 s).
Furthermore, these three voltages are transformed to the corresponding space phasor. Note that the zero component is not zero, indicating the shift of the neutral with respect to the midpoint of the DC voltage.
The space phasor is rotated to the coordinate system rotating with 2*π*2 Hz. To suppress the influence of switching, real and imaginary part of the rotated phasor are filtered. The polar representation of this rotated and filtered phasor are calculated.
Please note that the filter has a settle time depending on the filter parameters.
Extends from Modelica.Icons.Example (Icon for runnable examples).
Name | Description |
---|---|
RMS | Reference RMS Y |