The sources have optional inputs:
vPhasor: voltage {norm, phase} vType = signal omega: angular frequency fType=signal pv: {active power, abs(voltage)} (only PVsource) p: {active power, rective power} (only PQsource)
To use signal inputs, choose parameters vType=signal and/or fType=signal.
General relations between voltage-norms, effective- and peak-values is shown in the table, both relative to each other (pu, norm = 1) and as example (SI, 400 V).
pu | V | ||
---|---|---|---|
Three-phase norm | |v_abc| | 1 | 400 |
Single-phase amplitude | ampl (v_a), .. | sqrt(2/3) | 326 |
Single-phase effective | eff (v_a), .. | 1/sqrt(3) | 230 |
Phase to phase amplitude | ampl (v_b - v_c), .. | sqrt(2) | 565 |
Phase to phase effective | eff (v_b - v_c), .. | 1 | 400 |
Three-phase norm | |v_dqo| | 1 | 400 |
Phase to phase dq-norm | |vpp_dq| | sqrt(2) | 565 |
Name | Description |
---|---|
Voltage | Ideal voltage, 3-phase abc |
Vspectrum | Ideal voltage spectrum, 3-phase abc |
InfBus | Infinite slack bus, 3-phase abc |
VsourceRX | Voltage behind reactance source, 3-phase abc |
PVsource | Power-voltage source, 3-phase abc |
PQsource | Power source, 3-phase abc |
Partials | Partial models |