Example #1
0
    def test_Lam_Wind_28_wind_rad_tan(self):
        """Test machine plot with Slot 28 and winding rad=1, tan=2 and rad=2 and tan=1
        """
        print("\nTest plot Slot 28")
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=35e-3,
            Rext=84e-3,
            is_internal=True,
            is_stator=False,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.rotor.axial_vent = [
            VentilationCirc(Zh=6, Alpha0=pi / 6, D0=15e-3, H0=0.045)
        ]
        test_obj.rotor.slot = SlotW28(
            Zs=42, W0=3.5e-3, H0=0.45e-3, R1=3.5e-3, H3=14e-3, W3=5e-3
        )
        test_obj.rotor.winding = WindingCW2LT(qs=3, p=3)
        test_obj.rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=85e-3,
            Rext=0.2,
            is_internal=False,
            is_stator=True,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW28(
            Zs=18, W0=7e-3, R1=10e-3, H0=5e-3, H3=30e-3, W3=5e-3
        )
        test_obj.stator.winding = WindingDW2L(qs=3, p=3, Lewout=60e-3)
        test_obj.stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.frame = Frame(Rint=0.2, Rext=0.25, Lfra=1)

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_1-Machine.png"))
        # Rotor + stator + 2 for frame + 1 for Shaft
        self.assertEqual(len(fig.axes[0].patches), 133)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_2-Rotor.png"))
        # 2 for lam + Zs*2 for wind + 6 vent
        self.assertEqual(len(fig.axes[0].patches), 92)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_3-Stator.png"))
        # 2 for lam, 2*Zs for wind
        self.assertEqual(len(fig.axes[0].patches), 38)
Example #2
0
    def test_Lam_Wind_22_wind_22(self):
        """Test machine plot with Slot 22 and winding rad=2, tan=2
        """
        print("\nTest plot Slot 22")
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=0,
            Rext=0.5,
            is_internal=True,
            is_stator=False,
            L1=0.8,
            Nrvd=4,
            Wrvd=0.05,
        )
        test_obj.rotor.slot = SlotW22(Zs=6,
                                      W0=pi / 20,
                                      W2=pi / 10,
                                      H0=20e-3,
                                      H2=150e-3)
        test_obj.rotor.winding = WindingUD(user_wind_mat=wind_mat,
                                           qs=4,
                                           p=4,
                                           Lewout=60e-3)
        test_obj.rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=0.51,
            Rext=0.8,
            is_internal=False,
            is_stator=True,
            L1=0.8,
            Nrvd=4,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW22(Zs=18,
                                       W0=pi / 20,
                                       W2=pi / 10,
                                       H0=20e-3,
                                       H2=150e-3)
        test_obj.stator.winding = WindingDW2L(qs=3, p=3)
        test_obj.stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.stator.winding.Lewout = 60e-3
        test_obj.frame = Frame(Rint=0.8, Rext=0.8, Lfra=1)

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s22_1-Machine.png"))
        # Rotor + Stator + 0 for frame + 0 for shaft
        self.assertEqual(len(fig.axes[0].patches), 63)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s22_2-Rotor.png"))
        # 1 for lam + 4*Zs for wind
        self.assertEqual(len(fig.axes[0].patches), 25)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s22_3-Stator.png"))
        # 2 for lam + Zs*2 for wind
        self.assertEqual(len(fig.axes[0].patches), 38)

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s22_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s22_Tooth_out.png"))
Example #3
0
    def test_Lam_Wind_27_wind_22(self):
        """Test machine plot with Slot 27 and winding rad=2, tan=2
        """
        print("\nTest plot Slot 27")
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=0.2,
            Rext=0.5,
            is_internal=True,
            is_stator=False,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.rotor.axial_vent = [
            VentilationCirc(Zh=6, Alpha0=pi / 6, D0=60e-3, H0=0.35)
        ]
        test_obj.rotor.slot = SlotW27(Zs=6,
                                      H0=0.05,
                                      W0=30e-3,
                                      H1=0.125,
                                      W1=0.06,
                                      H2=0.05,
                                      W2=0.09,
                                      W3=0.04)
        test_obj.rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.rotor.winding = WindingUD(user_wind_mat=wind_mat,
                                           qs=4,
                                           p=4,
                                           Lewout=60e-3)
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=0.51,
            Rext=0.8,
            is_internal=False,
            is_stator=True,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW27(Zs=18,
                                       H0=0.05,
                                       W0=30e-3,
                                       H1=0.07,
                                       W1=0.05,
                                       H2=0.15,
                                       W2=0.1,
                                       W3=0.05)
        test_obj.stator.winding = WindingDW2L(qs=3, p=3)
        test_obj.stator.winding.Lewout = 60e-3
        test_obj.stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.frame = Frame(Rint=0.8, Rext=0.9, Lfra=1)

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s27_1-Machine.png"))
        # Rotor + Stator + 2 for frame + 1 for shaft
        self.assertEqual(len(fig.axes[0].patches), 73)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s27_2-Rotor.png"))
        # 2 for lam + 4*Zs for wind + 6 vent
        self.assertEqual(len(fig.axes[0].patches), 32)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s27_3-Stator.png"))
        # 2 for lam + 2*Zs for wind
        self.assertEqual(len(fig.axes[0].patches), 38)

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s27_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s27_Tooth_out.png"))
Example #4
0
    def test_Lam_Wind_14_wind_22(self):
        """Test machine plot with Slot 14 and winding rad=2, tan=2
		"""
        print("\nTest plot Slot 14")
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=0.2,
            Rext=0.5,
            is_internal=True,
            is_stator=False,
            L1=0.95,
            Nrvd=1,
            Wrvd=0.05,
        )
        test_obj.rotor.slot = SlotW14(Zs=6,
                                      W0=100e-3,
                                      W3=200e-3,
                                      H0=15e-3,
                                      H1=25e-3,
                                      H3=140e-3)
        test_obj.rotor.winding = WindingUD(user_wind_mat=wind_mat,
                                           qs=4,
                                           p=4,
                                           Lewout=60e-3)
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)
        test_obj.shaft.mat_type.name = "M270_35A"

        test_obj.rotor.mat_type.name = "Load_M400"
        test_obj.rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3)

        test_obj.stator = LamSlotWind(
            Rint=0.51,
            Rext=1,
            is_internal=False,
            is_stator=True,
            L1=0.95,
            Nrvd=1,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW14(Zs=6,
                                       W0=100e-3,
                                       W3=200e-3,
                                       H0=15e-3,
                                       H1=25e-3,
                                       H3=140e-3)
        test_obj.stator.winding = WindingUD(user_wind_mat=wind_mat,
                                            qs=4,
                                            p=4,
                                            Lewout=60e-3)

        test_obj.frame = Frame(Rint=1, Rext=1.1, Lfra=1)
        test_obj.frame.mat_type.name = "M330_35A"

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s14_1-Machine.png"))
        # Rotor + Stator + 2 for frame + 1 for shaft
        self.assertEqual(len(fig.axes[0].patches), 55)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s14_2-Rotor.png"))
        # 2 for lam + Zs*4 for wind
        self.assertEqual(len(fig.axes[0].patches), 26)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s14_3-Stator.png"))
        # 2 for lam + Zs*4 for wind
        self.assertEqual(len(fig.axes[0].patches), 26)

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s14_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s14_Tooth_out.png"))
Example #5
0
    def test_Lam_Wind_28_wind_22(self):
        """Test machine plot with Slot 28 and winding rad=2, tan=2
        """
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=0.01,
            Rext=0.129,
            is_internal=True,
            is_stator=False,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.rotor.slot = SlotW28(
            Zs=6, W0=20e-3, R1=25e-3, H0=10e-3, H3=50e-3, W3=15e-3
        )
        test_obj.rotor.winding = WindingUD(
            user_wind_mat=wind_mat, qs=4, p=4, Lewout=60e-3
        )
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=0.13,
            Rext=0.4,
            is_internal=False,
            is_stator=True,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.stator.axial_vent = [
            VentilationCirc(Zh=6, Alpha0=pi / 6, D0=60e-3, H0=0.25)
        ]
        test_obj.stator.slot = SlotW28(
            Zs=6, W0=40e-3, R1=50e-3, H0=10e-3, H3=70e-3, W3=85e-3
        )
        test_obj.stator.winding = WindingUD(
            user_wind_mat=wind_mat, qs=4, p=4, Lewout=60e-3
        )

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_4-Machine.png"))
        # Rotor + stator + 0 for frame + 1 for shaft
        self.assertEqual(len(fig.axes[0].patches), 59)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_5-Rotor.png"))
        # 2 for lam + Zs*4 for wind
        self.assertEqual(len(fig.axes[0].patches), 26)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_6-Stator.png"))
        # 2 for lam, 4*Zs for wind + 6 vents
        self.assertEqual(len(fig.axes[0].patches), 32)

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s28_Tooth_out.png"))
Example #6
0
    def test_Lam_Wind_12_wind_22(self):
        """Test machine plot with Slot 12 and winding rad=2, tan=2
        """
        print("\nTest plot Slot 12")
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=0.2,
            Rext=0.5,
            is_internal=True,
            is_stator=False,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.rotor.axial_vent = [
            VentilationPolar(Zh=6, Alpha0=pi / 6, W1=pi / 6, D0=100e-3, H0=0.3)
        ]
        test_obj.rotor.slot = SlotW12(Zs=6,
                                      R2=35e-3,
                                      H0=20e-3,
                                      R1=17e-3,
                                      H1=130e-3)
        test_obj.rotor.winding = WindingUD(user_wind_mat=wind_mat,
                                           qs=4,
                                           p=4,
                                           Lewout=60e-3)
        test_obj.rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=0.51,
            Rext=0.8,
            is_internal=False,
            is_stator=True,
            L1=0.9,
            Nrvd=2,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW12(Zs=18,
                                       R2=25e-3,
                                       H0=30e-3,
                                       R1=0,
                                       H1=150e-3)
        test_obj.stator.winding.Lewout = 60e-3
        test_obj.stator.winding = WindingDW2L(qs=3, p=3)
        test_obj.stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.frame = Frame(Rint=0.8, Rext=0.9, Lfra=1)

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s12_1-Machine.png"))
        # Rotor + Stator + 2 for frame + 1 for Shaft
        self.assertEqual(len(fig.axes[0].patches), 73)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s12_2-Rotor.png"))
        # 2 for lam + Zs*4 for wind + 6 vents
        self.assertEqual(len(fig.axes[0].patches), 32)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s12_3-Stator.png"))
        # 2 for lam + Zs*2 for wind
        self.assertEqual(len(fig.axes[0].patches), 38)

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s12_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s12_Tooth_out.png"))
Example #7
0
    def test_Lam_Wind_10_wind_22(self):
        """Test machine plot with Slot 10 and winding rad=2, tan=2
		"""
        print("\nTest plot Slot 10")
        plt.close("all")
        test_obj = MachineDFIM()
        test_obj.rotor = LamSlotWind(
            Rint=0.2,
            Rext=0.5,
            is_internal=True,
            is_stator=False,
            L1=0.95,
            Nrvd=1,
            Wrvd=0.05,
        )
        test_obj.rotor.slot = SlotW10(
            Zs=6,
            W0=50e-3,
            W1=90e-3,
            W2=100e-3,
            H0=20e-3,
            H1=35e-3,
            H2=130e-3,
            H1_is_rad=False,
        )
        test_obj.rotor.winding = WindingUD(
            user_wind_mat=wind_mat, qs=4, p=4, Lewout=60e-3
        )
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=0.51,
            Rext=0.8,
            is_internal=False,
            is_stator=True,
            L1=0.95,
            Nrvd=1,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW10(
            Zs=6,
            W0=50e-3,
            W1=80e-3,
            W2=50e-3,
            H0=15e-3,
            H1=25e-3,
            H2=140e-3,
            H1_is_rad=False,
        )
        test_obj.stator.winding = WindingUD(
            user_wind_mat=wind_mat, qs=4, p=4, Lewout=60e-3
        )

        test_obj.frame = Frame(Rint=0.8, Rext=0.9, Lfra=1)
        test_obj.frame.mat_type.name = "M330_35A"

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_1-Machine.png"))
        # Rotor + Stator + 2 for frame + 1 for Shaft
        self.assertEqual(len(fig.axes[0].patches), 55)

        test_obj.rotor.plot()
        fig = plt.gcf()
        self.assertEqual(len(fig.axes[0].patches), 26)
        fig.savefig(join(save_path, "test_Lam_Wind_s10_2-Rotor.png"))
        # 2 for lam + Zs*4 for wind
        self.assertEqual(len(fig.axes[0].patches), 26)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_3-Stator.png"))
        # 2 for lam + Zs*4 for wind
        self.assertEqual(len(fig.axes[0].patches), 26)

        lines = test_obj.stator.slot.build_geometry_half_tooth(is_top=False)
        surf = SurfLine(line_list=lines)
        surf.plot_lines()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_Tooth_bottom_out.png"))

        lines = test_obj.stator.slot.build_geometry_half_tooth(is_top=True)
        surf = SurfLine(line_list=lines)
        surf.plot_lines()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_Tooth_top_out.png"))

        lines = test_obj.rotor.slot.build_geometry_half_tooth(is_top=False)
        surf = SurfLine(line_list=lines)
        surf.plot_lines()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_Tooth_bottom_in.png"))

        lines = test_obj.rotor.slot.build_geometry_half_tooth(is_top=True)
        surf = SurfLine(line_list=lines)
        surf.plot_lines()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_Tooth_top_in.png"))

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s10_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        mesh_dict = tooth.comp_mesh_dict(5e-3)
        for line in tooth.get_lines():
            mid = line.get_middle()
            plt.text(mid.real, mid.imag, str(mesh_dict[line.label]))
        fig.savefig(join(save_path, "test_Lam_Wind_s10_Tooth_out.png"))
Example #8
0
# Steps to start the design of a machine with 2 laminations
S_step = [SMachineType, SMachineDimension]

# Defaut machine for initialization
machine1 = MachineSCIM()
machine1.stator = LamSlotWind()
machine1.stator.winding = WindingDW2L()
machine1.rotor = LamSquirrelCage()
machine1.rotor.winding = WindingSC()
machine1._set_None()  # Empty machine
machine1.type_machine = 1
machine1.stator.is_stator = True
machine1.rotor.is_stator = False

machine4 = MachineDFIM()
machine4.stator = LamSlotWind()
machine4.stator.winding = WindingDW2L()
machine4.rotor = LamSlotWind()
machine4.rotor.winding = WindingDW2L()
machine4._set_None()  # Empty machine
machine4.type_machine = 4
machine4.stator.is_stator = True
machine4.rotor.is_stator = False

machine5 = MachineSyRM()
machine5.stator = LamSlotWind()
machine5.stator.winding = WindingDW2L()
machine5.rotor = LamHole()
machine5.rotor.hole = list()
machine5.rotor.hole.append(HoleM50())
machine5.rotor.hole[0].remove_magnet()
Example #9
0
    def test_Lam_Wind_21_wind_22(self):
        """Test machine plot with Slot 21 and winding rad=2, tan=2
        """
        print("\nTest plot Slot 21")
        plt.close("all")
        test_obj = MachineDFIM()

        test_obj.rotor = LamSlotWind(
            Rint=0.2,
            Rext=0.5,
            is_internal=True,
            is_stator=False,
            L1=0.85,
            Nrvd=3,
            Wrvd=0.05,
        )
        test_obj.rotor.slot = SlotW21(
            Zs=6,
            W0=40e-3,
            W1=60e-3,
            W2=40e-3,
            H0=20e-3,
            H1=0,
            H2=130e-3,
            H1_is_rad=False,
        )
        test_obj.rotor.axial_vent.append(
            VentilationTrap(Zh=6,
                            Alpha0=pi / 6,
                            W1=30e-3,
                            W2=60e-3,
                            D0=0.05,
                            H0=0.3))
        test_obj.rotor.axial_vent.append(
            VentilationTrap(Zh=6,
                            Alpha0=pi / 6,
                            W1=60e-3,
                            W2=90e-3,
                            D0=0.05,
                            H0=0.4))
        test_obj.rotor.winding = WindingUD(user_wind_mat=wind_mat,
                                           qs=4,
                                           p=4,
                                           Lewout=60e-3)
        test_obj.rotor.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.shaft = Shaft(Drsh=test_obj.rotor.Rint * 2, Lshaft=1)

        test_obj.stator = LamSlotWind(
            Rint=0.51,
            Rext=0.8,
            is_internal=False,
            is_stator=True,
            L1=0.85,
            Nrvd=3,
            Wrvd=0.05,
        )
        test_obj.stator.slot = SlotW21(
            Zs=18,
            W0=40e-3,
            W1=60e-3,
            W2=90e-3,
            H0=15e-3,
            H1=35e-3,
            H2=140e-3,
            H1_is_rad=False,
        )
        test_obj.stator.winding = WindingDW2L(qs=3, p=3)
        test_obj.stator.axial_vent.append(
            VentilationCirc(Zh=12, Alpha0=pi / 6, D0=50e-3, H0=0.75))
        test_obj.stator.mat_type.mag = MatMagnetics(Wlam=0.5e-3)
        test_obj.stator.winding.Lewout = 60e-3
        test_obj.frame = Frame(Rint=0.8, Rext=1, Lfra=1)

        test_obj.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s21_1-Machine.png"))
        # Rotor + Stator + 2 for frame + 1 for shaft
        self.assertEqual(len(fig.axes[0].patches), 91)

        test_obj.rotor.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s21_2-Rotor.png"))
        # 2 for lam + 4*Zs for wind + 6 vents + 6 vents
        self.assertEqual(len(fig.axes[0].patches), 38)

        test_obj.stator.plot()
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s21_3-Stator.png"))
        # 2 for lam + Zs*2 for wind + 12 vents
        self.assertEqual(len(fig.axes[0].patches), 50)

        tooth = test_obj.rotor.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s21_Tooth_in.png"))

        tooth = test_obj.stator.slot.get_surface_tooth()
        tooth.plot(color="r")
        fig = plt.gcf()
        fig.savefig(join(save_path, "test_Lam_Wind_s21_Tooth_out.png"))
Example #10
0
I_1 = ImportMatrixVal(value=zeros((100, 3)))
I_2 = ImportMatrixVal(value=zeros((100, 2)))
I_3 = ImportMatrixVal(value=zeros((2, 100)))
I_4 = ImportMatrixVal(value=zeros((100)))

angle_rotor_wrong = ImportMatrixVal(value=zeros((10, 2)))
angle_rotor_wrong2 = ImportMatrixVal(value=zeros((102)))
angle_rotor = ImportMatrixVal(value=zeros((100)))

Nr_wrong = ImportMatrixVal(value=zeros((10, 2)))
Nr_wrong2 = ImportMatrixVal(value=zeros((102)))
Nr = ImportMatrixVal(value=zeros((100)))

# Winding stator only
M1 = MachineDFIM()
M1.stator = LamSlotWind()
M1.stator.winding.qs = 3
M1.rotor.winding = None
# Winding rotor only
M2 = MachineDFIM()
M2.rotor = LamSlotWind()
M2.rotor.winding.qs = 2
M2.stator.winding = None
# Winding rotor + stator
M3 = MachineDFIM()
M3.stator = LamSlotWind()
M3.stator.winding.qs = 3
M3.rotor = LamSlotWind()
M3.rotor.winding.qs = 2

# Wrong time
Example #11
0
angle_rotor_wrong2 = ImportMatrixVal(value=zeros((102)))
angle_rotor = ImportMatrixVal(value=zeros((100)))

Nr_wrong = ImportMatrixVal(value=zeros((10, 2)))
Nr_wrong2 = ImportMatrixVal(value=zeros((102)))
Nr = ImportMatrixVal(value=zeros((100)))

# Winding stator only
M1 = MachineIPMSM()
M1.stator = LamSlotWind()
M1.stator.winding = WindingDW1L()
M1.stator.winding.qs = 3

# Machine without 'comp_initial_angle' method
M2 = MachineDFIM()
M2.stator = LamSlotWind()
M2.stator.winding.qs = 3
M2.rotor.winding = None

# Wrong time
test_obj = Simulation()
test_obj.input = InCurrentDQ(time=None)
InCurrentDQ_Error_test.append({
    "test_obj": test_obj,
    "exp": "ERROR: InCurrentDQ.time missing"
})
test_obj = Simulation()
test_obj.input = InCurrentDQ(time=time_wrong)
InCurrentDQ_Error_test.append({
    "test_obj":
    test_obj,