Numerical
Waveform
Documentation
| From DC grid | |||
| DC Voltage | VDC | 20 | [V] |
| DC Current | IDC | 3 | [A] |
| DC Power | PDC | 60 | [W] |
| Inverter | |||
| Losses | Ploss | 3.158 | [W] |
| Delivered to AC grid | |||
| AC Line-Line Voltage[RMS) | VACrmsLL | 230 | [V] |
| AC Phase Voltage[RMS] | VACrms | 230 | [V] |
| AC Phase Voltage[Amplitude] | VACAmplitude | 325.269 | [V] |
| AC Current[RMS] | IACrms | 0.275 | [A] |
| AC True Power | PAC | 63.158 | [W] |
| AC Reactive Power | QAC | 0 | [VAR] |
| AC Apparent Power | SAC | 63.158 | [VA] |
AC voltage
VDC=20[V]
IDC=3[A]
PDC=60[W]
Ploss=3.158[W]
VACrmsLL=230[V]
VACrms=230[V]
VACAmplitude=325.269[V]
IACrms=0.275[A]
PAC=63.158[W]
SAC=63.158[VA]
Real(X-axis) and reactive(Y-axis) power.
Grid Tied inverter
In this tool you can calculate the amount of power, voltage and current in a grid tied converter.
If Pdc >0 the power is delivered from the DC grid to the AC grid
If Pdc <0 the power is delivered from the AC grid to the DC grid
The DC voltage should be larger than two times the amplitude of the AC phase voltage.
Default the grid tied inverter has a unity power factor, however you can define the amount of Reactive Power QAC to be delivered to the AC grid or to be taken out of the AC grid. This will give a leading or lagging power factor. The losses in the inverter associated with the Real, Reactive and thus the Apparent power are covered by the real power PAC taken from the AC grid.
Specify the efficiency of the inverter between 0 and 100.
ωmax
| From DC grid | |||
| DC Voltage | VDC | 20 | [V] |
| DC Current | IDC | 3 | [A] |
| DC Power | PDC | 60 | [W] |
| Inverter | |||
| Losses | Ploss | 3.158 | [W] |
| Delivered to AC grid | |||
| AC Line-Line Voltage[RMS) | VACrmsLL | 230 | [V] |
| AC Phase Voltage[RMS] | VACrms | 230 | [V] |
| AC Phase Voltage[Amplitude] | VACAmplitude | 325.269 | [V] |
| AC Current[RMS] | IACrms | 0.275 | [A] |
| AC True Power | PAC | 63.158 | [W] |
| AC Reactive Power | QAC | 0 | [VAR] |
| AC Apparent Power | SAC | 63.158 | [VA] |