Stationary operating behaviour

Call: Rotating Machine (r/phi-coordinate-system)

Data for the “Calc. T;V ..(n) curves” procedure

Example for the call:

m.move_action     =          0.000 --   Move Action: rotate=0; linear=1
m.arm_length      =        100.000 --   Effect. armature length          [mm]
m.num_pol_pair    =          2.000 --   Number of Pole pairs           (>= 1)
m.npols_gen       =          1.000 --   Number of Poles simulated      (>= 1)
m.speed           =       3000.000 --   Speed: rotate                 [1/min]
m.skew_angle      =          0.000 --   Skew angle                  [Deg; mm]
m.nu_skew_steps   =          0.000 --   No of skew sect:>0:finite;0:infinite
m.eval_force      =          0.000 --   Evaluate force density: no = 0;yes >0
m.current         =         20.000 --   Nominal stator coil current(Peak) [A]
m.angl_i_up       =          0.000 --   Angle current I vs. voltage Up  [Deg]
m.num_par_wdgs    =          0.000 --   Number of parallel Windings   (>= 1)
m.magn_temp       =         20.000 --   Temperature Magnet            [Deg C]
m.fc_radius       =         34.250 --   Radius air-gap center (torque)   [mm]
m.optim_i_up      =          0.000 --   Optimize < I vs Up : no = 0; yes > 0
m.calc_fe_loss    =          1.000 --   Calculate Losses:>0; areas>0; no = 0
m.nu_move_steps   =         49.000 --   Number of move steps
m.range_phi       =        180.000 --   Move range angle
m.phi_start       =          0.000 --   Start angle
m.pm_eff_aktiv    =  0             --   keine interaktionen


m.fc_mult_move_type =           1.  --  Type of move path in air gap
m.fc_force_points   =          0.000  --    number move points in air gap


m.pocfilename    = 'xyz.poc'
run_models("pm_sym_fast")
../../../../../_images/Calc.T.V.n.curves.01.png ../../../../../_images/Calc.T.V.n.curves.02.png ../../../../../_images/Calc.T.V.n.curves.03.png