.Spot.ACabc.ImpedancesYD .Spot.ACabc.ImpedancesYDContains lumped impedance models for Y and Delta topology.
General relations see 'Impedances'.
All elements allow the choice between Y- and
Delta-topology.
The impedance parameters are defined 'as seen from the terminals',
directly relating terminal voltage and terminal current. With this
definition same parameters lead to same network properties,
independent of topology. The necessary scaling is performed
automatically.
In Delta-topology the conductor voltage is sqrt(3) higher, the current sqrt(3) lower, compared to the terminal voltage and current. Therefore the impedance relating conductor current and voltage is a factor 3 larger, the admittance a factor 1/3 smaller than the impedance and admittance as seen from the terminal.
If impedance parameters are known for the WINDINGS, choose:
input values impedance parameters = (winding values of impedance parameters)/3
In abc-representation the following relations hold between terminal-voltage term.v and -current term.i on the one hand and conductor-voltage v and -current i on the other:
Y-topology:
v = term.v - {v_n, v_n, v_n}: voltage between terminal and neutral point
i_term.i = i
i_n = sum(i_term)
Delta-topology:
v = v_term[{1,2,3}] - v_term[{2,3,1}]
term.i = i[{1,2,3}] - i[{3,1,2}]
(Alternative solutions correspond to permuted phases).
| Name | Description |
|---|---|
 Resistor |
Resistor, 3-phase abc |
 Conductor |
Conductor, 3-phase abc |
 Inductor |
Inductor with series resistor, 3-phase abc |
 Capacitor |
Capacitor with parallel conductor, 3-phase abc |
 ResistorNonSym |
Resistor non symmetric, 3-phase abc |
 InductorNonSym |
Inductor with series resistor non symmetric, 3-phase abc |
 CapacitorNonSym |
Capacitor with parallel conductor non symmetric, 3-phase abc |
 Varistor |
Varistor, 3-phase abc |
 Partials |
Partial models |