def test_Lam_Mag_10_surface(self): """Test machine plot with Magnet 10 surface""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=200e-3, is_internal=True, is_stator=False, L1=0.5, Nrvd=0, Wrvd=0.05, ) magnet = [MagnetType10(Lmag=0.5, Hmag=0.02, Wmag=0.08)] rotor.slot = SlotMFlat(Zs=8, H0=0, W0=2 * pi / 10, W0_is_rad=True, magnet=magnet) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 10) fig.savefig(join(save_path, "test_Lam_Mag_10s_2-Rotor.png")) magnet2 = [MagnetType10(Lmag=0.5, Hmag=0.02, Wmag=0.04)] rotor.slot = SlotMFlat(Zs=8, W0=0.04, W0_is_rad=False, magnet=magnet2) rotor.plot() fig = plt.gcf() fig.savefig(join(save_path, "test_Lam_Mag_10s_5-Rotor 2.png"))
def test_Lam_Mag_11_inset_2_mag(self): """Test machine plot with Magnet 11 inset with two magnet in the slot""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=90e-3, is_internal=True, is_stator=False, L1=0.4, Nrvd=2, Wrvd=0.05, ) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.slot = SlotMPolar( Zs=8, W0=pi / 12, H0=0.01, W3=pi / 18, magnet=[ MagnetType11(Lmag=0.5, Hmag=0.01, Wmag=pi / 12), MagnetType11(Lmag=0.5, Hmag=0.01, Wmag=pi / 12), ], ) stator = LamSlotMag( Rint=115e-3, Rext=200e-3, is_internal=False, is_stator=True, L1=0.4, Nrvd=2, Wrvd=0.05, ) stator.slot = SlotMPolar( Zs=4, W0=pi / 10, H0=0.02, W3=2 * pi / 50, magnet=[ MagnetType11(Lmag=0.35, Hmag=0.03, Wmag=pi / 10), MagnetType11(Lmag=0.35, Hmag=0.03, Wmag=pi / 10), ], ) stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 18) fig.savefig(join(save_path, "test_Lam_Mag_11i_2_Mag_2-Rotor.png")) stator.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 10) fig.savefig(join(save_path, "test_Lam_Mag_11i_3_Mag_2-Stator.png"))
def test_Lam_Mag_11_surface(self): """Test machine plot with Magnet 11 surface""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=90e-3, is_internal=True, is_stator=False, L1=0.45, Nrvd=1, Wrvd=0.05, ) magnet = [MagnetType11(Lmag=0.5, Hmag=0.01, Wmag=pi / 8)] rotor.slot = SlotMPolar(Zs=8, W0=pi / 8, magnet=magnet) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) stator = LamSlotMag( Rint=115e-3, Rext=200e-3, is_internal=False, is_stator=True, L1=0.45, Nrvd=1, Wrvd=0.05, ) magnet2 = [MagnetType11(Lmag=0.5, Hmag=0.01, Wmag=pi / 4)] stator.slot = SlotMPolar(Zs=4, W0=pi / 4, magnet=magnet2) stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 10) fig.savefig(join(save_path, "test_Lam_Mag_11s_2-Rotor.png")) stator.plot() fig = plt.gcf() patches = fig.axes[0].patches self.assertEqual(len(patches), 6) self.assertTrue(isinstance(patches[0], Circle)) self.assertEqual(patches[0].get_radius(), 200e-3) self.assertEqual(patches[0].get_facecolor(), (0.0, 0.0, 1.0, 1.0)) # Blue for i in range(1, 6): self.assertTrue(isinstance(patches[i], Polygon)) if i == 1: # Lamination inner self.assertEqual(patches[i].get_facecolor(), (1.0, 1.0, 1.0, 1.0)) # White else: # Magnet self.assertEqual(patches[i].get_facecolor(), (0.75, 0.75, 0.75, 1.0)) # Gray fig.savefig(join(save_path, "test_Lam_Mag_11s_3-Stator.png"))
def test_Lam_Mag_10_inset(self): """Test machine plot with Magnet 10 inset""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=100e-3, is_internal=True, is_stator=False, L1=0.45, Nrvd=1, Wrvd=0.05, ) magnet = [MagnetType10(Lmag=0.5, Hmag=0.02, Wmag=0.04)] rotor.slot = SlotMFlat(Zs=4, W0=0.04, H0=0.02, magnet=magnet) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.axial_vent.append(VentilationCirc(Zh=4, Alpha0=0, D0=2.5e-3, H0=50e-3)) rotor.axial_vent.append(VentilationCirc(Zh=8, Alpha0=0, D0=5e-3, H0=60e-3)) rotor.axial_vent.append(VentilationCirc(Zh=12, Alpha0=0, D0=10e-3, H0=70e-3)) stator = LamSlotMag( Rint=110e-3, Rext=200e-3, is_internal=False, is_stator=True, L1=0.45, Nrvd=1, Wrvd=0.05, ) magnet2 = [MagnetType10(Lmag=0.5, Hmag=0.02, Wmag=0.04)] stator.slot = SlotMFlat(Zs=8, W0=0.04, W3=2 * pi / 64, H0=0.02, magnet=magnet2) stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3) stator.axial_vent.append( VentilationTrap(Zh=6, Alpha0=pi / 6, W1=10e-3, W2=20e-3, D0=0.02, H0=0.140) ) stator.axial_vent.append( VentilationTrap(Zh=6, Alpha0=pi / 6, W1=20e-3, W2=40e-3, D0=0.02, H0=0.170) ) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 30) fig.savefig(join(save_path, "test_Lam_Mag_10i_2-Rotor.png")) stator.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 22) fig.savefig(join(save_path, "test_Lam_Mag_10i_3-Stator.png"))
def test_Lam_Mag_13_inset(self): """Test machine plot with Magnet 12 inset""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=90e-3, is_internal=True, is_stator=False, L1=0.42, Nrvd=4, Wrvd=0.02, ) magnet = [MagnetType13(Lmag=0.5, Hmag=0.02, Wmag=0.04, Rtop=0.04)] rotor.slot = SlotMFlat(Zs=8, W0=0.04, H0=0.02, W3=2 * pi / 64, magnet=magnet) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) stator = LamSlotMag( Rint=110e-3, Rext=200e-3, is_internal=False, is_stator=True, L1=0.42, Nrvd=4, Wrvd=0.02, ) magnet2 = [MagnetType13(Lmag=0.5, Hmag=0.02, Wmag=0.04, Rtop=0.04)] stator.slot = SlotMFlat(Zs=4, W0=0.04, H0=0.025, W3=2 * pi / 64, magnet=magnet2) stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 10) fig.savefig(join(save_path, "test_Lam_Mag_13i_2-Rotor.png")) stator.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 6) fig.savefig(join(save_path, "test_Lam_Mag_13i_3-Stator.png"))
def test_Lam_Mag_12_surface(self): """Test machine plot with Magnet 12 surface""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=90e-3, is_internal=True, is_stator=False, L1=0.4, Nrvd=2, Wrvd=0.05, ) magnet = [MagnetType12(Lmag=0.5, Hmag=0.02, Wmag=0.06)] rotor.slot = SlotMFlat(Zs=8, W0=0.06, magnet=magnet) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) stator = Lamination( Rint=130e-3, Rext=0.2, is_internal=False, is_stator=True, L1=0.4, Nrvd=2, Wrvd=0.05, ) stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 10) fig.savefig(join(save_path, "test_Lam_Mag_12s_2-Rotor.png")) stator.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 2) fig.savefig(join(save_path, "test_Lam_Mag_12s_3-Stator.png"))
def test_Lam_Mag_14_inset(self): """Test machine plot with Magnet 14 inset""" plt.close("all") rotor = LamSlotMag( Rint=40e-3, Rext=90e-3, is_internal=True, is_stator=False, L1=0.4, Nrvd=5, Wrvd=0.02, ) magnet = [MagnetType14(Lmag=0.5, Hmag=0.02, Wmag=0.628, Rtop=0.04)] rotor.slot = SlotMPolar(Zs=4, W0=0.628, H0=0.02, magnet=magnet) rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3) stator = Lamination( Rint=130e-3, Rext=0.2, is_internal=False, is_stator=True, L1=0.4, Nrvd=5, Wrvd=0.02, ) stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3) rotor.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 6) fig.savefig(join(save_path, "test_Lam_Mag_14i_2-Rotor.png")) stator.plot() fig = plt.gcf() self.assertEqual(len(fig.axes[0].patches), 2) fig.savefig(join(save_path, "test_Lam_Mag_14i_3-Stator.png"))