From c607abeb6d94c2489c5c39d1e137a85c4687122f Mon Sep 17 00:00:00 2001
From: Pedro Romero <promerogomb@unav.es>
Date: Mon, 31 Mar 2025 12:23:35 +0200
Subject: [PATCH] 1.0

---
 .gitignore            |   4 +-
 ensayos_motor.py      |  41 ++++++-
 fluxcontrol.py        |   2 -
 genCurvas.py          |   7 +-
 results/results       | 275 ------------------------------------------
 results/results_0.txt | 256 ---------------------------------------
 results/results_1.txt | 256 ---------------------------------------
 7 files changed, 44 insertions(+), 797 deletions(-)
 delete mode 100644 results/results
 delete mode 100644 results/results_0.txt
 delete mode 100644 results/results_1.txt

diff --git a/.gitignore b/.gitignore
index 779ba37..b5b8a56 100644
--- a/.gitignore
+++ b/.gitignore
@@ -1,4 +1,6 @@
 venv/
 *.mdb
 motores/PLACond/
-__pycache__/
\ No newline at end of file
+__pycache__/
+motores/PLACond/
+results/*
\ No newline at end of file
diff --git a/ensayos_motor.py b/ensayos_motor.py
index 05ba5c2..243ca15 100644
--- a/ensayos_motor.py
+++ b/ensayos_motor.py
@@ -100,6 +100,45 @@ def ensayo_carga(V, I, f, R, L):
         
     return np.array(E), np.array(Ireal)
 
+def ensayar_material(resistencia, material, ruta):
+    
+    vacio = pd.read_excel(ruta, sheet_name='vacio', engine='openpyxl').dropna()
+    corto = pd.read_excel(ruta, sheet_name='corto', engine='openpyxl').dropna()
+    carga = pd.read_excel(ruta, sheet_name='carga', engine='openpyxl').dropna()
+
+    tensionVacio = {
+        'a' : np.array(vacio['V1'][vacio['material'] == material]),
+        'b' : np.array(vacio['V2'][vacio['material'] == material]),
+        'c' : np.array(vacio['V3'][vacio['material'] == material])
+    }
+    fVacio = np.array(vacio['f'][vacio['material'] == material])
+
+    keMedia, ke = ensayo_vacio(tensionVacio, fVacio)
+
+    corrienteCorto ={
+        'a' : np.array(corto['I1'][corto['material'] == material]),
+        'b' : np.array(corto['I2'][corto['material'] == material]),
+        'c' : np.array(corto['I3'][corto['material'] == material])
+    }
+    fCorto = np.array(corto['f'][corto['material'] == material])
+
+    lMedia, l, lCV = ensayo_corto(corrienteCorto, fCorto, keMedia, resistencia)
+
+    tensionCarga = {
+        'a' : np.array(carga['V1'][carga['material'] == material]),
+        'b' : np.array(carga['V2'][carga['material'] == material])
+    }
+    corrienteCarga = {
+        'a' : np.array(carga['I1'][carga['material'] == material]),
+        'b' : np.array(carga['I2'][carga['material'] == material])
+    }
+    fCarga = np.array(carga['f'][carga['material'] == material])
+
+    E, I = ensayo_carga(tensionCarga, corrienteCarga, fCarga, resistencia, lMedia)
+
+    return E, I, fCarga
+    
+
 if __name__ == '__main__':
     archivo = 'Ensayos.xlsx'
 
@@ -122,7 +161,7 @@ if __name__ == '__main__':
         }
         fVacio = np.array(vacio['f'][vacio['material'] == material])
 
-        keMedia, ke= ensayo_vacio(tensionVacio, fVacio)
+        keMedia, ke = ensayo_vacio(tensionVacio, fVacio)
 
 
         corrienteCorto ={
diff --git a/fluxcontrol.py b/fluxcontrol.py
index d912fbe..bef2c6f 100644
--- a/fluxcontrol.py
+++ b/fluxcontrol.py
@@ -3,8 +3,6 @@ import genCurvas as gc
 import motorcad as mc
 import os
 
-
-
 if __name__ == '__main__':
     
     archivoEnsayos = "Ensayos.xlsx"
diff --git a/genCurvas.py b/genCurvas.py
index 0bf3b1c..8e20b7b 100644
--- a/genCurvas.py
+++ b/genCurvas.py
@@ -5,13 +5,8 @@ import ensayos_motor as ensayo
 
 def valores_objetivo(archivo, material):
     resistencia = 4.5
-    carga = pd.read_excel(archivo, sheet_name='carga', engine='openpyxl').dropna()
 
-    E = np.mean(carga.loc[carga['material'] == material, ['V1', 'V2']].values, axis=1)
-    I = np.mean(carga.loc[carga['material'] == material, ['I1', 'I2']].values, axis=1)
-    f = np.array(carga['f'][carga['material'] == material])
-    
-    E_obj, I_obj = ensayo.ensayo_carga(E, I, f, resistencia, lMedia)
+    E_obj, I_obj, f = ensayo.ensayar_material(resistencia, material, archivo)
     
     return E_obj, I_obj, f
 
diff --git a/results/results b/results/results
deleted file mode 100644
index de0c201..0000000
--- a/results/results
+++ /dev/null
@@ -1,275 +0,0 @@
-Drive
-"DC Bus Voltage";350;Volts;
-"Line-Line Supply Voltage (rms)";247,5;Volts;
-"Phase Supply Voltage (rms)";142,9;Volts;
-"Line-Line Terminal Voltage (peak)";455,8;Volts;
-"Line-Line Terminal Voltage (rms)";309,6;Volts;
-"Phase Terminal Voltage (peak)";251,8;Volts;
-"Phase Terminal Voltage (rms)";178,9;Volts;
-"Harmonic Distortion Line-Line Terminal Voltage";6,585;%;
-"Harmonic Distortion Phase Terminal Voltage";6,633;%;
-"Back EMF Line-Line Voltage (peak)";508,9;Volts;
-"Back EMF Phase Voltage (peak)";293,8;Volts;
-"Back EMF Line-Line Voltage (rms)";359,9;Volts;
-"Back EMF Phase Voltage (rms)";207,8;Volts;
-"Max Line-Line / Phase Voltage Ratio";1,732;;
-"DC Supply Current (mean)";4,413;Amps;
-"Line Current (peak)";4,243;Amps;
-"Line Current (rms)";3;Amps;
-"Phase Current (peak)";4,243;Amps;
-"Phase Current (rms)";3;Amps;
-"Phase Advance";45;EDeg;
-"Drive Offset Angle (Open Circuit)";390;EDeg;
-"Drive Offset Angle (On load)";30;EDeg;
-"Phase Advance to give maximum torque";4,547;EDeg;
-"Phasor Offset Angle";330;EDeg;
-"Phasor Angle (Ph1)";0;EDeg;
-"Phasor Angle (Ph2)";120;EDeg;
-"Phasor Angle (Ph3)";240;EDeg;
-"Max Angle Between Phasors";120;EDeg;
-"D Axis Inductance";16,25;mH;
-"Q Axis Inductance";18,17;mH;
-"Line-Line Inductance (DQ)";33,53;mH;
-"Armature End Winding Inductance_(Rosa and Grover)";0,544;mH;
-"D Axis Phase Current (average rms)";-2,121;Amps;
-"Q Axis Phase Current (average rms)";2,121;Amps;
-"Torque Constant (Kt)";1,026;Nm/A;
-"Motor Constant (Km)";0,3278;Nm/(Watts^0.5);
-"Back EMF Constant (Ke) (fundamental)";1,62;Vs/Rad;
-"Electrical Constant";2,637;msec;
-"Electrical Loading";5,003E004;Amps/m;
-"Stall Current";26,82;Amps;
-"Stall Torque";27,51;Nm;
-"Short Circuit Line Current (peak)";9,95;Amps;
-"Short Circuit Current Density (peak)";50,67;Amps/mm�;
-"Short Circuit Current Density (rms)";35,83;Amps/mm�;
-"Short Circuit Braking Torque";-3,084;Nm;
-"Short Circuit Max Braking Torque";-7,207;Nm;
-"Short Circuit Max Braking Torque Speed";678,4;rpm;
-"Fundamental Frequency";300;Hz;
-"Shaft Speed";3000;rpm;
-
-E-Magnetics
-"Maximum torque possible (DQ)_(For Phase Advance of 4,547 EDeg)";5,9709;Nm;
-"Average torque (virtual work)";4,3593;Nm;
-"Average torque (loop torque)";4,332;Nm;
-"Torque Ripple (MsVw)";0,60512;Nm;
-"Torque Ripple (MsVw) [%]";13,907;%;
-"Speed limit for constant torque_(For Phase Advance of 45 EDeg)";2324,8;rpm;
-"No load speed";2063,2;rpm;
-"Speed limit for zero q axis current";INF;rpm;
-"Electromagnetic Power_Operating point outside voltage limit.";1367;Watts;
-"Input Power";1544,4;Watts;
-"Total Losses (on load)";210,54;Watts;
-"Output Power_Operating point outside voltage limit.";1333,9;Watts;
-"System Efficiency";86,368;%;
-"Shaft Torque";4,246;Nm;
-"Power Factor [Waveform] (leading)";0,96066;;
-"Power Factor Angle [Waveform]";-16,124;EDeg;
-"Power Factor [THD]";0,95856;;
-"Power Factor [Phasor] (leading)";0,96126;;
-"Power Factor Angle [Phasor]";344;EDeg;
-"Load Angle [Phasor]";28,908;EDeg;
-"Phase Terminal Voltage (rms) [Phasor]";178,91;Volts;
-"Rotor Inertia";0,00063702;kg.m�;
-"Shaft Inertia";3,2257E-005;kg.m�;
-"Total Inertia";0,00066928;kg.m�;
-"Torque per rotor volume";40,307;kNm/m�;
-"Rotor peripheral velocity (on load)";13,022;m/s;
-"Flux Linkage D (Q axis current)";155,875;mVs;
-"Flux Linkage Q (Q axis current)";54,453;mVs;
-"Flux linkage D (On load)";107,122;mVs;
-"Flux linkage Q (On load)";54,5023;mVs;
-"Torque Constant (Kt)";1,0256;Nm/A;
-"Motor Constant (Km)";0,327818;Nm/(Watts^0.5);
-"Back EMF Constant (Ke) (fundamental)";1,6199;Vs/Rad;
-"Stall Current";26,8188;Amps;
-"Stall Torque";27,5053;Nm;
-"Cogging Period";10;MDeg;
-"Cogging Frequency";1800;Hz;
-"Fundamental Frequency";300;Hz;
-"Mechanical Frequency";50;Hz;
-"Optimum Skewing Angle";10;MDeg;
-"Magnetic Symmetry Factor_(Automatic calculation)";6;;
-"Magnetic Axial Length (Slice1)";20;mm;
-
-Phasor Diagram
-"Maximum torque possible (DQ)_(For Phase Advance of 4,547 EDeg)";5,9709;Nm;
-"Average torque (virtual work)";4,3593;Nm;
-"Average torque (loop torque)";4,332;Nm;
-"Torque Ripple (MsVw)";0,60512;Nm;
-"Torque Ripple (MsVw) [%]";13,907;%;
-"Speed limit for constant torque_(For Phase Advance of 45 EDeg)";2324,8;rpm;
-"No load speed";2063,2;rpm;
-"Speed limit for zero q axis current";INF;rpm;
-"Electromagnetic Power_Operating point outside voltage limit.";1367;Watts;
-"Input Power";1544,4;Watts;
-"Total Losses (on load)";210,54;Watts;
-"Output Power_Operating point outside voltage limit.";1333,9;Watts;
-"System Efficiency";86,368;%;
-"Shaft Torque";4,246;Nm;
-"Power Factor [Waveform] (leading)";0,96066;;
-"Power Factor Angle [Waveform]";-16,124;EDeg;
-"Power Factor [THD]";0,95856;;
-"Power Factor [Phasor] (leading)";0,96126;;
-"Power Factor Angle [Phasor]";344;EDeg;
-"Load Angle [Phasor]";28,908;EDeg;
-"Phase Terminal Voltage (rms) [Phasor]";178,91;Volts;
-"Rotor Inertia";0,00063702;kg.m�;
-"Shaft Inertia";3,2257E-005;kg.m�;
-"Total Inertia";0,00066928;kg.m�;
-"Torque per rotor volume";40,307;kNm/m�;
-"Rotor peripheral velocity (on load)";13,022;m/s;
-"Flux Linkage D (Q axis current)";155,875;mVs;
-"Flux Linkage Q (Q axis current)";54,453;mVs;
-"Flux linkage D (On load)";107,122;mVs;
-"Flux linkage Q (On load)";54,5023;mVs;
-"Torque Constant (Kt)";1,0256;Nm/A;
-"Motor Constant (Km)";0,327818;Nm/(Watts^0.5);
-"Back EMF Constant (Ke) (fundamental)";1,6199;Vs/Rad;
-"Stall Current";26,8188;Amps;
-"Stall Torque";27,5053;Nm;
-"Cogging Period";10;MDeg;
-"Cogging Frequency";1800;Hz;
-"Fundamental Frequency";300;Hz;
-"Mechanical Frequency";50;Hz;
-"Optimum Skewing Angle";10;MDeg;
-"Magnetic Symmetry Factor_(Automatic calculation)";6;;
-"Magnetic Axial Length (Slice1)";20;mm;
-
-Equivalent Circuit
-"Phase Resistance";6,525;Ohms;
-"D Axis Inductance";16,25;mH;
-"Q Axis Inductance";18,17;mH;
-"Stator Slot Leakage Inductance";11,01;mH;
-"Stator Differential Leakage Inductance";1,824;mH;
-"Armature End Winding Inductance_(Rosa and Grover)";0,544;mH;
-"Stator Leakage Inductance (Total)";13,37;mH;
-"Magnetizing Inductance (D Axis)";2,876;mH;
-"Magnetizing Inductance (Q Axis)";4,793;mH;
-"D Axis Reactance";30,63;Ohms;
-"Q Axis Reactance";34,24;Ohms;
-"Stator Slot Leakage Reactance";20,75;Ohms;
-"Stator Differential Leakage Reactance";3,438;Ohms;
-"Armature End Winding Reactance";1,025;Ohms;
-"Stator Leakage Reactance (Total)";25,21;Ohms;
-"Magnetizing Reactance (D Axis)";5,422;Ohms;
-"Magnetizing Reactance (Q Axis)";9,034;Ohms;
-"Rotor Referred Resistance";183,8;Ohms;
-"First Order Transient Reactance (D Axis)";25,21;Ohms;
-"First Order Transient Reactance (Q Axis)";34,24;Ohms;
-"Excitation Time Constant (Te)";1,565E-005;secs;
-"First Order Transient Time Constant (Td')";1,288E-005;secs;
-"Armature Time Constant (Ta)";0,002417;secs;
-
-Flux Densities
-"Airgap flux density (mean)";0,5647;Tesla;
-"Airgap Flux Density (peak)";1,002;Tesla;
-"Stator Tooth Flux Density (peak)";0,9435;Tesla;
-"Stator Tooth Tip Flux Density (peak)";1,927;Tesla;
-"Stator Back Iron Flux Density (peak)";1,343;Tesla;
-"Rotor Back Iron Flux Density (peak)";0,3478;Tesla;
-
-Losses
-"Armature DC Copper Loss (on load)";176,2;Watts;
-"Magnet Loss (on load)";0,6921;Watts;
-"Stator iron Loss [total] (on load)";33,08;Watts;
-"Rotor iron Loss [total] (on load)";0,5847;Watts;
-"Windage Loss (user input)";0;Watts;
-"Friction Loss (user input)";0;Watts;
-"Shaft Loss [total] (on load)";0;Watts;
-"Total Losses (on load)";210,5;Watts;
-"Magnet Block Width";14,62;mm;
-"Magnet Loss Factor";0,4889;;
-"Magnet Loss (on load)";0,6921;Watts;
-"Stator back iron Loss [hysteresis - fundamental] (on load)";2,964;Watts;
-"Stator back iron Loss [hysteresis - minor loops] (on load)";2,236;Watts;
-"Stator back iron Loss [hysteresis] (on load)";5,2;Watts;
-"Stator back iron Loss [eddy] (on load)";6,664;Watts;
-"Stator back iron Loss [excess] (on load)";0;Watts;
-"Stator back iron Loss [total] (on load)";11,86;Watts;
-"Stator tooth Loss [hysteresis - fundamental] (on load)";9,548;Watts;
-"Stator tooth Loss [hysteresis - minor loops] (on load)";0,1072;Watts;
-"Stator tooth Loss [hysteresis] (on load)";9,656;Watts;
-"Stator tooth Loss [eddy] (on load)";11,56;Watts;
-"Stator tooth Loss [excess] (on load)";0;Watts;
-"Stator tooth Loss [total] (on load)";21,21;Watts;
-"Stator iron Loss [total] (on load)";33,08;Watts;
-"Rotor back iron Loss [hysteresis] (on load)";0;Watts;
-"Rotor back iron Loss [eddy] (on load)";0,5847;Watts;
-"Rotor back iron Loss [excess] (on load)";0;Watts;
-"Rotor back iron Loss [total] (on load)";0,5847;Watts;
-"Rotor iron Loss [total] (on load)";0,5847;Watts;
-"Shaft Loss [eddy] (on load)";0;Watts;
-
-Winding
-"Armature Conductor CSA";0,1963;mm�;
-"Armature Conductor Current Density";15,28;Amps/mm�;
-"Armature Conductor MLT";74,23;mm;
-"Armature Turns per Phase";750;;
-"Armature Turns per Coil";125;;
-"Length of phase";5,568E004;mm;
-"Phase Resistance";6,525;Ohms;
-"Line-Line Resistance";13,05;Ohms;
-"Armature Conductor Temperature";106,7;�C;
-"Mean Coil Pitch (Calculated)";19,25;mm;
-"Mean Coil Pitch (Used)";9,624;mm;
-"Fundamental Winding Factor";0,866;;
-"Winding Factor Sum";0,09009;;
-"Wire Ins Thickness";0,025;mm;
-"Copper Diameter";0,5;mm;
-Conductors/Slot;250;;
-"Armature End Winding MLT (Calculated)";68,47;mm;
-"Armature End Winding MLT (User adjustment)";0,5;;
-"Armature End Winding MLT (Used)";34,23;mm;
-"Copper Slot Fill (Wdg Area)";0,2523;;
-"Wire Slot Fill (Slot Area)";0,2684;;
-"Copper Slot Fill (Slot Area)";0,2218;;
-"Heavy Build Slot Fill";0,3887;;
-"Slot Area (Slot 1)";221,3;mm�;
-"Winding Area (+ Liner) (Slot 1)";207,1;mm�;
-"Slot Area (FEA)";207,1;mm�;
-"Wedge Area";14,19;mm�;
-"Slot Opening Area";1,598;mm�;
-"Liner-Lam Gap Area (Slot 1)";0;mm�;
-"Impreg Area (Slot 1)";135,2;mm�;
-"Liner Area (Slot 1)";12,55;mm�;
-"Coil Divider Area (Slot 1)";0;mm�;
-"Volume Copper EWdg Front";5376;mm�;
-"Volume Copper Active";1,767E004;mm�;
-"Volume Copper EWdg Rear";5376;mm�;
-
-Miscellaneous
-"FEA Mesh Nodes";3365;;
-"FEA Mesh Elements";6472;;
-"Airgap Mesh Layers Used";5;;
-"FEA Max Element Length";1,25;mm;
-
-Materials
-"Armature Conductor Resistivity";2,301E-008;Ohm.m;
-"Armature Conductor Resistivity at Ref Temp (20�C)";1,724E-008;Ohm.m;
-"Armature Conductor Temperature";106,7;�C;
-"Stator Lamination Resistivity";2,3E-007;Ohm.m;
-"Number of stator laminations";38,8;;
-"Rotor Lamination Resistivity";1,43E-007;Ohm.m;
-"Rotor Lamination Resistivity at Ref Temp (20�C)";1,43E-007;Ohm.m;
-"Rotor Lamination Temperature";87,2;�C;
-"Number of rotor laminations";1;;
-"Shaft Resistivity";0;Ohm.m;
-"Shaft Resistivity at Ref Temp (20�C)";0;Ohm.m;
-"Shaft Temperature";85,57;�C;
-"Magnet Resistivity";1,8E-006;Ohm.m;
-"Magnet Resistivity at Ref Temp (20�C)";1,8E-006;Ohm.m;
-"Magnet Temperature";87,67;�C;
-"Total Motor Weight";2,646;kg;
-"Weight Stator Lam";0,6688;kg;
-"Armature Copper [Total] Weight";0,293;kg;
-"Weight Rotor Lam";0,4923;kg;
-"Weight Magnet";0,1315;kg;
-"Weight Shaft Total";0,3224;kg;
-"Magnet Br at reference temperature (20 �C)";1,26;Tesla;
-"Magnet Temperature";87,67;�C;
-"Magnet Br (Calculated)";1,158;Tesla;
-"Magnet Br Adjustment Factor";1;;
-"Magnet Br (Used)";1,158;Tesla;
-
diff --git a/results/results_0.txt b/results/results_0.txt
deleted file mode 100644
index 004ceaa..0000000
--- a/results/results_0.txt
+++ /dev/null
@@ -1,256 +0,0 @@
-Drive
-"Line-Line Terminal Voltage (peak)";175,6;Volts;
-"Phase Terminal Voltage (peak)";101,1;Volts;
-"Line-Line Terminal Voltage (rms)";122,2;Volts;
-"Phase Terminal Voltage (rms)";70,55;Volts;
-"Harmonic Distortion Line-Line Terminal Voltage";6,804;%;
-"Harmonic Distortion Phase Terminal Voltage";6,787;%;
-"Back EMF Line-Line Voltage (peak)";184;Volts;
-"Back EMF Line-Line Voltage (peak) (fundamental)";180,3;Volts;
-"Back EMF Phase Voltage (peak)";102,5;Volts;
-"Back EMF Line-Line Voltage (rms)";127,8;Volts;
-"Back EMF Phase Voltage (rms)";73,77;Volts;
-"Harmonic Distortion Back EMF Line-Line Voltage";6,257;%;
-"Harmonic Distortion Back EMF Phase Voltage";6,257;%;
-"Drive Current (peak)";0,8037;Amps;
-"Phase Current (rms)";0,5851;Amps;
-"Harmonic Distortion Line Current";4,609;%;
-"Harmonic Distortion Phase Current";4,609;%;
-"Drive Effective Switching Frequency";628,3;kHz;
-"D Axis Inductance";9,658;mH;
-"Q Axis Inductance";18,16;mH;
-"Line-Line Inductance (DQ)";27,82;mH;
-"Self Inductance";12,49;mH;
-"Mutual Inductance";-5,963;mH;
-"Line-Line Inductance";36,91;mH;
-"Armature End Winding Inductance_(Rosa and Grover)";0,544;mH;
-"D Axis Phase Current (average rms)";-0,05627;Amps;
-"Q Axis Phase Current (average rms)";-0,5817;Amps;
-"Torque Constant (Kt)";-0,9607;Nm/A;
-"Motor Constant (Km)";-0,5761;Nm/(Watts^0.5);
-"Back EMF Constant (Ke)";1,757;Vs/Rad;
-"Back EMF Constant (Ke) (fundamental)";1,722;Vs/Rad;
-"Electrical Constant";2,846;msec;
-"Mechanical Constant";-1,845;msec;
-"Electrical Loading";9756;Amps/m;
-"Stall Current";40,91;Amps;
-"Stall Torque";-39,3;Nm;
-"Short Circuit Line Current (peak)";13,77;Amps;
-"Short Circuit Current Density (peak)";70,11;Amps/mm�;
-"Short Circuit Current Density (rms)";49,57;Amps/mm�;
-"Short Circuit Braking Torque";-13,27;Nm;
-"Short Circuit Max Braking Torque";-13,78;Nm;
-"Short Circuit Max Braking Torque Speed";769,3;rpm;
-"Fundamental Frequency";100;Hz;
-"Shaft Speed";1000;rpm;
-
-E-Magnetics
-"Average torque (virtual work)";-1,2838;Nm;
-"Average torque (loop torque)";1,2207;Nm;
-"Torque Ripple (MsVw)";0,22003;Nm;
-"Torque Ripple (MsVw) [%]";-17,047;%;
-"Electromagnetic Power";-135,16;Watts;
-"Input Power";-146,76;Watts;
-"Total Losses (on load)";20,681;Watts;
-"Output Power";-126,08;Watts;
-"System Efficiency";85,909;%;
-"Shaft Torque";-1,4015;Nm;
-"Power Factor [Waveform] (leading)";-0,99997;;
-"Power Factor Angle [Waveform]";-179,57;EDeg;
-"Power Factor [THD]";-0,99662;;
-"Rotor Inertia";0,00063702;kg.m�;
-"Shaft Inertia";3,2257E-005;kg.m�;
-"Total Inertia";0,00066928;kg.m�;
-"Torque per rotor volume";-11,956;kNm/m�;
-"Rotor peripheral velocity (on load)";4,3406;m/s;
-"Flux Linkage D (Q axis current)";164,376;mVs;
-"Flux Linkage Q (Q axis current)";24,388;mVs;
-"Flux linkage D (On load)";164,406;mVs;
-"Flux linkage Q (On load)";-14,7569;mVs;
-"Torque Constant (Kt)";-0,9607;Nm/A;
-"Motor Constant (Km)";-0,576065;Nm/(Watts^0.5);
-"Back EMF Constant (Ke)";1,75699;Vs/Rad;
-"Back EMF Constant (Ke) (fundamental)";1,72212;Vs/Rad;
-"Stall Current";40,9127;Amps;
-"Stall Torque";-39,3048;Nm;
-"Cogging Period";10;MDeg;
-"Cogging Frequency";600;Hz;
-"Fundamental Frequency";100;Hz;
-"Mechanical Frequency";16,6667;Hz;
-"Optimum Skewing Angle";10;MDeg;
-"Magnetic Symmetry Factor_(Automatic calculation)";6;;
-"Magnetic Axial Length (Slice1)";20;mm;
-
-Phasor Diagram
-"Average torque (virtual work)";-1,2838;Nm;
-"Average torque (loop torque)";1,2207;Nm;
-"Torque Ripple (MsVw)";0,22003;Nm;
-"Torque Ripple (MsVw) [%]";-17,047;%;
-"Electromagnetic Power";-135,16;Watts;
-"Input Power";-146,76;Watts;
-"Total Losses (on load)";20,681;Watts;
-"Output Power";-126,08;Watts;
-"System Efficiency";85,909;%;
-"Shaft Torque";-1,4015;Nm;
-"Power Factor [Waveform] (leading)";-0,99997;;
-"Power Factor Angle [Waveform]";-179,57;EDeg;
-"Power Factor [THD]";-0,99662;;
-"Rotor Inertia";0,00063702;kg.m�;
-"Shaft Inertia";3,2257E-005;kg.m�;
-"Total Inertia";0,00066928;kg.m�;
-"Torque per rotor volume";-11,956;kNm/m�;
-"Rotor peripheral velocity (on load)";4,3406;m/s;
-"Flux Linkage D (Q axis current)";164,376;mVs;
-"Flux Linkage Q (Q axis current)";24,388;mVs;
-"Flux linkage D (On load)";164,406;mVs;
-"Flux linkage Q (On load)";-14,7569;mVs;
-"Torque Constant (Kt)";-0,9607;Nm/A;
-"Motor Constant (Km)";-0,576065;Nm/(Watts^0.5);
-"Back EMF Constant (Ke)";1,75699;Vs/Rad;
-"Back EMF Constant (Ke) (fundamental)";1,72212;Vs/Rad;
-"Stall Current";40,9127;Amps;
-"Stall Torque";-39,3048;Nm;
-"Cogging Period";10;MDeg;
-"Cogging Frequency";600;Hz;
-"Fundamental Frequency";100;Hz;
-"Mechanical Frequency";16,6667;Hz;
-"Optimum Skewing Angle";10;MDeg;
-"Magnetic Symmetry Factor_(Automatic calculation)";6;;
-"Magnetic Axial Length (Slice1)";20;mm;
-
-Equivalent Circuit
-"Phase Resistance";4,888;Ohms;
-"D Axis Inductance";9,658;mH;
-"Q Axis Inductance";18,16;mH;
-"Stator Slot Leakage Inductance";11,01;mH;
-"Stator Differential Leakage Inductance";1,824;mH;
-"Armature End Winding Inductance_(Rosa and Grover)";0,544;mH;
-"Stator Leakage Inductance (Total)";13,37;mH;
-"Magnetizing Inductance (D Axis)";-3,717;mH;
-"Magnetizing Inductance (Q Axis)";4,788;mH;
-"D Axis Reactance";6,068;Ohms;
-"Q Axis Reactance";11,41;Ohms;
-"Stator Slot Leakage Reactance";6,916;Ohms;
-"Stator Differential Leakage Reactance";1,146;Ohms;
-"Armature End Winding Reactance";0,3418;Ohms;
-"Stator Leakage Reactance (Total)";8,404;Ohms;
-"Magnetizing Reactance (D Axis)";1E-012;Ohms;
-"Magnetizing Reactance (Q Axis)";3,008;Ohms;
-"Rotor Referred Resistance";183,8;Ohms;
-"First Order Transient Reactance (D Axis)";8,404;Ohms;
-"First Order Transient Reactance (Q Axis)";11,41;Ohms;
-"Excitation Time Constant (Te)";-2,022E-005;secs;
-"First Order Transient Time Constant (Td')";-2,801E-005;secs;
-"Armature Time Constant (Ta)";0,003226;secs;
-
-Flux Densities
-"Airgap flux density (mean)";0,6303;Tesla;
-"Airgap Flux Density (peak)";1,037;Tesla;
-"Stator Tooth Flux Density (peak)";1,377;Tesla;
-"Stator Tooth Tip Flux Density (peak)";1,849;Tesla;
-"Stator Back Iron Flux Density (peak)";1,759;Tesla;
-"Rotor Back Iron Flux Density (peak)";0,3956;Tesla;
-
-Losses
-"Armature DC Copper Loss (on load)";5,02;Watts;
-"Magnet Loss (on load)";0,02745;Watts;
-"Stator iron Loss [total] (on load)";11,6;Watts;
-"Rotor iron Loss [total] (on load)";4,033;Watts;
-"Windage Loss (user input)";0;Watts;
-"Friction Loss (user input)";0;Watts;
-"Shaft Loss [total] (on load)";0;Watts;
-"Total Losses (on load)";20,68;Watts;
-"Magnet Block Width";14,62;mm;
-"Magnet Loss Factor";0,4889;;
-"Magnet Loss (on load)";0,02745;Watts;
-"Stator back iron Loss [hysteresis - fundamental] (on load)";2,495;Watts;
-"Stator back iron Loss [hysteresis - minor loops] (on load)";0,1012;Watts;
-"Stator back iron Loss [hysteresis] (on load)";2,596;Watts;
-"Stator back iron Loss [eddy] (on load)";1,869;Watts;
-"Stator back iron Loss [excess] (on load)";0;Watts;
-"Stator back iron Loss [total] (on load)";4,465;Watts;
-"Stator tooth Loss [hysteresis - fundamental] (on load)";4,936;Watts;
-"Stator tooth Loss [hysteresis - minor loops] (on load)";0,009207;Watts;
-"Stator tooth Loss [hysteresis] (on load)";4,945;Watts;
-"Stator tooth Loss [eddy] (on load)";2,19;Watts;
-"Stator tooth Loss [excess] (on load)";0;Watts;
-"Stator tooth Loss [total] (on load)";7,135;Watts;
-"Stator iron Loss [total] (on load)";11,6;Watts;
-"Rotor back iron Loss [hysteresis] (on load)";0;Watts;
-"Rotor back iron Loss [eddy] (on load)";4,033;Watts;
-"Rotor back iron Loss [excess] (on load)";0;Watts;
-"Rotor back iron Loss [total] (on load)";4,033;Watts;
-"Rotor iron Loss [total] (on load)";4,033;Watts;
-"Shaft Loss [eddy] (on load)";0;Watts;
-
-Winding
-"Armature Conductor CSA";0,1963;mm�;
-"Armature Conductor Current Density";2,98;Amps/mm�;
-"Armature Conductor MLT";74,23;mm;
-"Armature Turns per Phase";750;;
-"Armature Turns per Coil";125;;
-"Length of phase";5,568E004;mm;
-"Phase Resistance";4,888;Ohms;
-"Line-Line Resistance";9,777;Ohms;
-"Armature Conductor Temperature";20;�C;
-"Mean Coil Pitch (Calculated)";19,25;mm;
-"Mean Coil Pitch (Used)";9,624;mm;
-"Fundamental Winding Factor";0,866;;
-"Winding Factor Sum";0,09009;;
-"Wire Ins Thickness";0,025;mm;
-"Copper Diameter";0,5;mm;
-Conductors/Slot;250;;
-"Armature End Winding MLT (Calculated)";68,47;mm;
-"Armature End Winding MLT (User adjustment)";0,5;;
-"Armature End Winding MLT (Used)";34,23;mm;
-"Copper Slot Fill (Wdg Area)";0,2523;;
-"Wire Slot Fill (Slot Area)";0,2684;;
-"Copper Slot Fill (Slot Area)";0,2218;;
-"Heavy Build Slot Fill";0,3887;;
-"Slot Area (Slot 1)";221,3;mm�;
-"Winding Area (+ Liner) (Slot 1)";207,1;mm�;
-"Slot Area (FEA)";207,1;mm�;
-"Wedge Area";14,19;mm�;
-"Slot Opening Area";1,598;mm�;
-"Liner-Lam Gap Area (Slot 1)";0;mm�;
-"Impreg Area (Slot 1)";135,2;mm�;
-"Liner Area (Slot 1)";12,55;mm�;
-"Coil Divider Area (Slot 1)";0;mm�;
-"Volume Copper EWdg Front";5376;mm�;
-"Volume Copper Active";1,767E004;mm�;
-"Volume Copper EWdg Rear";5376;mm�;
-
-Miscellaneous
-"FEA Mesh Nodes";3365;;
-"FEA Mesh Elements";6472;;
-"Airgap Mesh Layers Used";5;;
-"FEA Max Element Length";1,25;mm;
-
-Materials
-"Armature Conductor Resistivity";1,724E-008;Ohm.m;
-"Armature Conductor Resistivity at Ref Temp (20�C)";1,724E-008;Ohm.m;
-"Armature Conductor Temperature";20;�C;
-"Stator Lamination Resistivity";2,3E-007;Ohm.m;
-"Number of stator laminations";38,8;;
-"Rotor Lamination Resistivity";1,43E-007;Ohm.m;
-"Rotor Lamination Resistivity at Ref Temp (20�C)";1,43E-007;Ohm.m;
-"Rotor Lamination Temperature";20;�C;
-"Number of rotor laminations";1;;
-"Shaft Resistivity";0;Ohm.m;
-"Shaft Resistivity at Ref Temp (20�C)";0;Ohm.m;
-"Shaft Temperature";20;�C;
-"Magnet Resistivity";1,8E-006;Ohm.m;
-"Magnet Resistivity at Ref Temp (20�C)";1,8E-006;Ohm.m;
-"Magnet Temperature";20;�C;
-"Total Motor Weight";2,646;kg;
-"Weight Stator Lam";0,6688;kg;
-"Armature Copper [Total] Weight";0,293;kg;
-"Weight Rotor Lam";0,4923;kg;
-"Weight Magnet";0,1315;kg;
-"Weight Shaft Total";0,3224;kg;
-"Magnet Br at reference temperature (20 �C)";1,26;Tesla;
-"Magnet Temperature";20;�C;
-"Magnet Br (Calculated)";1,26;Tesla;
-"Magnet Br Adjustment Factor";1;;
-"Magnet Br (Used)";1,26;Tesla;
-
diff --git a/results/results_1.txt b/results/results_1.txt
deleted file mode 100644
index 004ceaa..0000000
--- a/results/results_1.txt
+++ /dev/null
@@ -1,256 +0,0 @@
-Drive
-"Line-Line Terminal Voltage (peak)";175,6;Volts;
-"Phase Terminal Voltage (peak)";101,1;Volts;
-"Line-Line Terminal Voltage (rms)";122,2;Volts;
-"Phase Terminal Voltage (rms)";70,55;Volts;
-"Harmonic Distortion Line-Line Terminal Voltage";6,804;%;
-"Harmonic Distortion Phase Terminal Voltage";6,787;%;
-"Back EMF Line-Line Voltage (peak)";184;Volts;
-"Back EMF Line-Line Voltage (peak) (fundamental)";180,3;Volts;
-"Back EMF Phase Voltage (peak)";102,5;Volts;
-"Back EMF Line-Line Voltage (rms)";127,8;Volts;
-"Back EMF Phase Voltage (rms)";73,77;Volts;
-"Harmonic Distortion Back EMF Line-Line Voltage";6,257;%;
-"Harmonic Distortion Back EMF Phase Voltage";6,257;%;
-"Drive Current (peak)";0,8037;Amps;
-"Phase Current (rms)";0,5851;Amps;
-"Harmonic Distortion Line Current";4,609;%;
-"Harmonic Distortion Phase Current";4,609;%;
-"Drive Effective Switching Frequency";628,3;kHz;
-"D Axis Inductance";9,658;mH;
-"Q Axis Inductance";18,16;mH;
-"Line-Line Inductance (DQ)";27,82;mH;
-"Self Inductance";12,49;mH;
-"Mutual Inductance";-5,963;mH;
-"Line-Line Inductance";36,91;mH;
-"Armature End Winding Inductance_(Rosa and Grover)";0,544;mH;
-"D Axis Phase Current (average rms)";-0,05627;Amps;
-"Q Axis Phase Current (average rms)";-0,5817;Amps;
-"Torque Constant (Kt)";-0,9607;Nm/A;
-"Motor Constant (Km)";-0,5761;Nm/(Watts^0.5);
-"Back EMF Constant (Ke)";1,757;Vs/Rad;
-"Back EMF Constant (Ke) (fundamental)";1,722;Vs/Rad;
-"Electrical Constant";2,846;msec;
-"Mechanical Constant";-1,845;msec;
-"Electrical Loading";9756;Amps/m;
-"Stall Current";40,91;Amps;
-"Stall Torque";-39,3;Nm;
-"Short Circuit Line Current (peak)";13,77;Amps;
-"Short Circuit Current Density (peak)";70,11;Amps/mm�;
-"Short Circuit Current Density (rms)";49,57;Amps/mm�;
-"Short Circuit Braking Torque";-13,27;Nm;
-"Short Circuit Max Braking Torque";-13,78;Nm;
-"Short Circuit Max Braking Torque Speed";769,3;rpm;
-"Fundamental Frequency";100;Hz;
-"Shaft Speed";1000;rpm;
-
-E-Magnetics
-"Average torque (virtual work)";-1,2838;Nm;
-"Average torque (loop torque)";1,2207;Nm;
-"Torque Ripple (MsVw)";0,22003;Nm;
-"Torque Ripple (MsVw) [%]";-17,047;%;
-"Electromagnetic Power";-135,16;Watts;
-"Input Power";-146,76;Watts;
-"Total Losses (on load)";20,681;Watts;
-"Output Power";-126,08;Watts;
-"System Efficiency";85,909;%;
-"Shaft Torque";-1,4015;Nm;
-"Power Factor [Waveform] (leading)";-0,99997;;
-"Power Factor Angle [Waveform]";-179,57;EDeg;
-"Power Factor [THD]";-0,99662;;
-"Rotor Inertia";0,00063702;kg.m�;
-"Shaft Inertia";3,2257E-005;kg.m�;
-"Total Inertia";0,00066928;kg.m�;
-"Torque per rotor volume";-11,956;kNm/m�;
-"Rotor peripheral velocity (on load)";4,3406;m/s;
-"Flux Linkage D (Q axis current)";164,376;mVs;
-"Flux Linkage Q (Q axis current)";24,388;mVs;
-"Flux linkage D (On load)";164,406;mVs;
-"Flux linkage Q (On load)";-14,7569;mVs;
-"Torque Constant (Kt)";-0,9607;Nm/A;
-"Motor Constant (Km)";-0,576065;Nm/(Watts^0.5);
-"Back EMF Constant (Ke)";1,75699;Vs/Rad;
-"Back EMF Constant (Ke) (fundamental)";1,72212;Vs/Rad;
-"Stall Current";40,9127;Amps;
-"Stall Torque";-39,3048;Nm;
-"Cogging Period";10;MDeg;
-"Cogging Frequency";600;Hz;
-"Fundamental Frequency";100;Hz;
-"Mechanical Frequency";16,6667;Hz;
-"Optimum Skewing Angle";10;MDeg;
-"Magnetic Symmetry Factor_(Automatic calculation)";6;;
-"Magnetic Axial Length (Slice1)";20;mm;
-
-Phasor Diagram
-"Average torque (virtual work)";-1,2838;Nm;
-"Average torque (loop torque)";1,2207;Nm;
-"Torque Ripple (MsVw)";0,22003;Nm;
-"Torque Ripple (MsVw) [%]";-17,047;%;
-"Electromagnetic Power";-135,16;Watts;
-"Input Power";-146,76;Watts;
-"Total Losses (on load)";20,681;Watts;
-"Output Power";-126,08;Watts;
-"System Efficiency";85,909;%;
-"Shaft Torque";-1,4015;Nm;
-"Power Factor [Waveform] (leading)";-0,99997;;
-"Power Factor Angle [Waveform]";-179,57;EDeg;
-"Power Factor [THD]";-0,99662;;
-"Rotor Inertia";0,00063702;kg.m�;
-"Shaft Inertia";3,2257E-005;kg.m�;
-"Total Inertia";0,00066928;kg.m�;
-"Torque per rotor volume";-11,956;kNm/m�;
-"Rotor peripheral velocity (on load)";4,3406;m/s;
-"Flux Linkage D (Q axis current)";164,376;mVs;
-"Flux Linkage Q (Q axis current)";24,388;mVs;
-"Flux linkage D (On load)";164,406;mVs;
-"Flux linkage Q (On load)";-14,7569;mVs;
-"Torque Constant (Kt)";-0,9607;Nm/A;
-"Motor Constant (Km)";-0,576065;Nm/(Watts^0.5);
-"Back EMF Constant (Ke)";1,75699;Vs/Rad;
-"Back EMF Constant (Ke) (fundamental)";1,72212;Vs/Rad;
-"Stall Current";40,9127;Amps;
-"Stall Torque";-39,3048;Nm;
-"Cogging Period";10;MDeg;
-"Cogging Frequency";600;Hz;
-"Fundamental Frequency";100;Hz;
-"Mechanical Frequency";16,6667;Hz;
-"Optimum Skewing Angle";10;MDeg;
-"Magnetic Symmetry Factor_(Automatic calculation)";6;;
-"Magnetic Axial Length (Slice1)";20;mm;
-
-Equivalent Circuit
-"Phase Resistance";4,888;Ohms;
-"D Axis Inductance";9,658;mH;
-"Q Axis Inductance";18,16;mH;
-"Stator Slot Leakage Inductance";11,01;mH;
-"Stator Differential Leakage Inductance";1,824;mH;
-"Armature End Winding Inductance_(Rosa and Grover)";0,544;mH;
-"Stator Leakage Inductance (Total)";13,37;mH;
-"Magnetizing Inductance (D Axis)";-3,717;mH;
-"Magnetizing Inductance (Q Axis)";4,788;mH;
-"D Axis Reactance";6,068;Ohms;
-"Q Axis Reactance";11,41;Ohms;
-"Stator Slot Leakage Reactance";6,916;Ohms;
-"Stator Differential Leakage Reactance";1,146;Ohms;
-"Armature End Winding Reactance";0,3418;Ohms;
-"Stator Leakage Reactance (Total)";8,404;Ohms;
-"Magnetizing Reactance (D Axis)";1E-012;Ohms;
-"Magnetizing Reactance (Q Axis)";3,008;Ohms;
-"Rotor Referred Resistance";183,8;Ohms;
-"First Order Transient Reactance (D Axis)";8,404;Ohms;
-"First Order Transient Reactance (Q Axis)";11,41;Ohms;
-"Excitation Time Constant (Te)";-2,022E-005;secs;
-"First Order Transient Time Constant (Td')";-2,801E-005;secs;
-"Armature Time Constant (Ta)";0,003226;secs;
-
-Flux Densities
-"Airgap flux density (mean)";0,6303;Tesla;
-"Airgap Flux Density (peak)";1,037;Tesla;
-"Stator Tooth Flux Density (peak)";1,377;Tesla;
-"Stator Tooth Tip Flux Density (peak)";1,849;Tesla;
-"Stator Back Iron Flux Density (peak)";1,759;Tesla;
-"Rotor Back Iron Flux Density (peak)";0,3956;Tesla;
-
-Losses
-"Armature DC Copper Loss (on load)";5,02;Watts;
-"Magnet Loss (on load)";0,02745;Watts;
-"Stator iron Loss [total] (on load)";11,6;Watts;
-"Rotor iron Loss [total] (on load)";4,033;Watts;
-"Windage Loss (user input)";0;Watts;
-"Friction Loss (user input)";0;Watts;
-"Shaft Loss [total] (on load)";0;Watts;
-"Total Losses (on load)";20,68;Watts;
-"Magnet Block Width";14,62;mm;
-"Magnet Loss Factor";0,4889;;
-"Magnet Loss (on load)";0,02745;Watts;
-"Stator back iron Loss [hysteresis - fundamental] (on load)";2,495;Watts;
-"Stator back iron Loss [hysteresis - minor loops] (on load)";0,1012;Watts;
-"Stator back iron Loss [hysteresis] (on load)";2,596;Watts;
-"Stator back iron Loss [eddy] (on load)";1,869;Watts;
-"Stator back iron Loss [excess] (on load)";0;Watts;
-"Stator back iron Loss [total] (on load)";4,465;Watts;
-"Stator tooth Loss [hysteresis - fundamental] (on load)";4,936;Watts;
-"Stator tooth Loss [hysteresis - minor loops] (on load)";0,009207;Watts;
-"Stator tooth Loss [hysteresis] (on load)";4,945;Watts;
-"Stator tooth Loss [eddy] (on load)";2,19;Watts;
-"Stator tooth Loss [excess] (on load)";0;Watts;
-"Stator tooth Loss [total] (on load)";7,135;Watts;
-"Stator iron Loss [total] (on load)";11,6;Watts;
-"Rotor back iron Loss [hysteresis] (on load)";0;Watts;
-"Rotor back iron Loss [eddy] (on load)";4,033;Watts;
-"Rotor back iron Loss [excess] (on load)";0;Watts;
-"Rotor back iron Loss [total] (on load)";4,033;Watts;
-"Rotor iron Loss [total] (on load)";4,033;Watts;
-"Shaft Loss [eddy] (on load)";0;Watts;
-
-Winding
-"Armature Conductor CSA";0,1963;mm�;
-"Armature Conductor Current Density";2,98;Amps/mm�;
-"Armature Conductor MLT";74,23;mm;
-"Armature Turns per Phase";750;;
-"Armature Turns per Coil";125;;
-"Length of phase";5,568E004;mm;
-"Phase Resistance";4,888;Ohms;
-"Line-Line Resistance";9,777;Ohms;
-"Armature Conductor Temperature";20;�C;
-"Mean Coil Pitch (Calculated)";19,25;mm;
-"Mean Coil Pitch (Used)";9,624;mm;
-"Fundamental Winding Factor";0,866;;
-"Winding Factor Sum";0,09009;;
-"Wire Ins Thickness";0,025;mm;
-"Copper Diameter";0,5;mm;
-Conductors/Slot;250;;
-"Armature End Winding MLT (Calculated)";68,47;mm;
-"Armature End Winding MLT (User adjustment)";0,5;;
-"Armature End Winding MLT (Used)";34,23;mm;
-"Copper Slot Fill (Wdg Area)";0,2523;;
-"Wire Slot Fill (Slot Area)";0,2684;;
-"Copper Slot Fill (Slot Area)";0,2218;;
-"Heavy Build Slot Fill";0,3887;;
-"Slot Area (Slot 1)";221,3;mm�;
-"Winding Area (+ Liner) (Slot 1)";207,1;mm�;
-"Slot Area (FEA)";207,1;mm�;
-"Wedge Area";14,19;mm�;
-"Slot Opening Area";1,598;mm�;
-"Liner-Lam Gap Area (Slot 1)";0;mm�;
-"Impreg Area (Slot 1)";135,2;mm�;
-"Liner Area (Slot 1)";12,55;mm�;
-"Coil Divider Area (Slot 1)";0;mm�;
-"Volume Copper EWdg Front";5376;mm�;
-"Volume Copper Active";1,767E004;mm�;
-"Volume Copper EWdg Rear";5376;mm�;
-
-Miscellaneous
-"FEA Mesh Nodes";3365;;
-"FEA Mesh Elements";6472;;
-"Airgap Mesh Layers Used";5;;
-"FEA Max Element Length";1,25;mm;
-
-Materials
-"Armature Conductor Resistivity";1,724E-008;Ohm.m;
-"Armature Conductor Resistivity at Ref Temp (20�C)";1,724E-008;Ohm.m;
-"Armature Conductor Temperature";20;�C;
-"Stator Lamination Resistivity";2,3E-007;Ohm.m;
-"Number of stator laminations";38,8;;
-"Rotor Lamination Resistivity";1,43E-007;Ohm.m;
-"Rotor Lamination Resistivity at Ref Temp (20�C)";1,43E-007;Ohm.m;
-"Rotor Lamination Temperature";20;�C;
-"Number of rotor laminations";1;;
-"Shaft Resistivity";0;Ohm.m;
-"Shaft Resistivity at Ref Temp (20�C)";0;Ohm.m;
-"Shaft Temperature";20;�C;
-"Magnet Resistivity";1,8E-006;Ohm.m;
-"Magnet Resistivity at Ref Temp (20�C)";1,8E-006;Ohm.m;
-"Magnet Temperature";20;�C;
-"Total Motor Weight";2,646;kg;
-"Weight Stator Lam";0,6688;kg;
-"Armature Copper [Total] Weight";0,293;kg;
-"Weight Rotor Lam";0,4923;kg;
-"Weight Magnet";0,1315;kg;
-"Weight Shaft Total";0,3224;kg;
-"Magnet Br at reference temperature (20 �C)";1,26;Tesla;
-"Magnet Temperature";20;�C;
-"Magnet Br (Calculated)";1,26;Tesla;
-"Magnet Br Adjustment Factor";1;;
-"Magnet Br (Used)";1,26;Tesla;
-