======================================= **Transient short-circuit calculation** ======================================= .. admonition:: Call: Rotating Machine (*r/phi-coordinate-system*) Data for the **"Transient SC-Calcul"** procedure **Example for the call:** :: m.re_winding = 0.774 -- Resistance stator winding Ra [Ohm] m.l_daxis = 0.000 -- Inductance Ld [H/mm] m.l_qaxis = 0.000 -- Inductance Lq [H/mm] m.l_endwindg = 0.000 -- Stator ewdg inductance Le [H] m.l_external = 0.000 -- Stator external inductance Lex [H] m.magn_flux = 0.005 -- Magn. flux (RMS) = Up/omega [Vs/mm] m.arm_length = 100.000 -- Effect. armature length lm [mm] m.current = 14.142 -- Current (operat. limit) (RMS) [A] m.angl_i_up = 0.000 -- Angle current vs. voltage Vp [Deg] m.speed = 3000.000 -- Speed [1/min] m.num_pol_pair = 2.000 -- Number of Pole pairs p (>= 1) m.typ = 3.000 -- Type of sc : 3ph = 3 m.initial = 1.000 -- Initial conditions: noload:1; load:2 m.simultime = 0.100 -- Simulation time [s] m.fc_radius = 34.250 -- Radius air-gap center (torq.) [mm] m.num_par_wdgs = 1.000 -- Number of parallel Windings(>= 1) a m.allow_demagn = 0.000 -- Allow Demagnetisation:= 1:yes;= 0:no m.sim_demagn = 0.000 -- Simulate Demagnetisation:1:yes; 0:no \n m.pocfilename = 'DUMMY' run_models("shortcircuit") .. image:: Transient.SC.Calcul.png