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author | jaseg <git@jaseg.de> | 2023-10-04 16:02:46 +0200 |
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committer | jaseg <git@jaseg.de> | 2023-10-04 16:02:46 +0200 |
commit | ba689e632e8891ad6d0b481fdcccae945900cfd1 (patch) | |
tree | e8c84c9cfed4c3d10e95cdd582d68d53e7ddb8dd /coil_parasitics.py | |
parent | 4400dc361e90d623a3a4ef327899773ee6370be5 (diff) | |
download | gerbonara-ba689e632e8891ad6d0b481fdcccae945900cfd1.tar.gz gerbonara-ba689e632e8891ad6d0b481fdcccae945900cfd1.tar.bz2 gerbonara-ba689e632e8891ad6d0b481fdcccae945900cfd1.zip |
EM solver WIP
Diffstat (limited to 'coil_parasitics.py')
-rw-r--r-- | coil_parasitics.py | 75 |
1 files changed, 73 insertions, 2 deletions
diff --git a/coil_parasitics.py b/coil_parasitics.py index b57e1f2..5bb7b02 100644 --- a/coil_parasitics.py +++ b/coil_parasitics.py @@ -89,7 +89,7 @@ def elmer_solver(cwd): @click.command() @click.option('-d', '--sim-dir', type=click.Path(dir_okay=True, file_okay=False, path_type=Path)) @click.argument('mesh_file', type=click.Path(dir_okay=False, path_type=Path)) -def run_simulation(mesh_file, sim_dir): +def run_capacitance_simulation(mesh_file, sim_dir): physical = dict(enumerate_mesh_bodies(mesh_file)) if sim_dir is not None: sim_dir = Path(sim_dir) @@ -143,7 +143,78 @@ def run_simulation(mesh_file, sim_dir): capacitance_matrix = np.loadtxt(tmpdir / 'capacitance.txt') +@click.command() +@click.option('-d', '--sim-dir', type=click.Path(dir_okay=True, file_okay=False, path_type=Path)) +@click.argument('mesh_file', type=click.Path(dir_okay=False, path_type=Path)) +def run_inductance_simulation(mesh_file, sim_dir): + physical = dict(enumerate_mesh_bodies(mesh_file)) + + if sim_dir is not None: + sim_dir = Path(sim_dir) + sim_dir.mkdir(exist_ok=True) + + sim = elmer.load_simulation('3D_steady', 'coil_mag_sim.yml') + mesh_dir = '.' + mesh_fn = 'mesh' + sim.header['Mesh DB'] = f'"{mesh_dir}" "{mesh_fn}"' + sim.constants.update({ + 'Permittivity of Vacuum': str(constants.epsilon_0), + 'Gravity(4)': f'0 -1 0 {constants.g}', + 'Boltzmann Constant': str(constants.Boltzmann), + 'Unit Charge': str(constants.elementary_charge)}) + + air = elmer.load_material('air', sim, 'coil_mag_materials.yml') + ro4003c = elmer.load_material('ro4003c', sim, 'coil_mag_materials.yml') + copper = elmer.load_material('copper', sim, 'coil_mag_materials.yml') + + solver_current = elmer.load_solver('Static_Current_Conduction', sim, 'coil_mag_solvers.yml') + solver_magdyn = elmer.load_solver('Magneto_Dynamics', sim, 'coil_mag_solvers.yml') + solver_magdyn_calc = elmer.load_solver('Magneto_Dynamics_Calculations', sim, 'coil_mag_solvers.yml') + + copper_eqn = elmer.Equation(sim, 'copperEqn', [solver_current, solver_magdyn, solver_magdyn_calc]) + air_eqn = elmer.Equation(sim, 'airEqn', [solver_magdyn, solver_magdyn_calc]) + + bdy_trace = elmer.Body(sim, 'trace', [physical['trace'][1]]) + bdy_trace.material = copper + bdy_trace.equation = copper_eqn + + bdy_sub = elmer.Body(sim, 'substrate', [physical['substrate'][1]]) + bdy_sub.material = ro4003c + bdy_sub.equation = air_eqn + + bdy_ab = elmer.Body(sim, 'airbox', [physical['airbox'][1]]) + bdy_ab.material = air + bdy_ab.equation = air_eqn + + bdy_if_top = elmer.Body(sim, 'interface_top', [physical['interface_top'][1]]) + bdy_if_top.material = copper + bdy_if_top.equation = copper_eqn + + bdy_if_bottom = elmer.Body(sim, 'interface_bottom', [physical['interface_bottom'][1]]) + bdy_if_bottom.material = copper + bdy_if_bottom.equation = copper_eqn + + # boundaries + boundary_airbox = elmer.Boundary(sim, 'FarField', [physical['airbox_surface'][1]]) + boundary_airbox.data['Electric Infinity BC'] = 'True' + + boundary_vplus = elmer.Boundary(sim, 'Vplus', [physical['interface_top'][1]]) + boundary_vplus.data['Potential'] = 1.0 + boundary_vplus.data['Save Scalars'] = True + + boundary_vminus = elmer.Boundary(sim, 'Vminus', [physical['interface_bottom'][1]]) + boundary_vminus.data['Potential'] = 0.0 + + with tempfile.TemporaryDirectory() as tmpdir: + if sim_dir: + tmpdir = str(sim_dir) + + sim.write_startinfo(tmpdir) + sim.write_sif(tmpdir) + # Convert mesh from gmsh to elemer formats. Also scale it from 1 unit = 1 mm to 1 unit = 1 m (SI units) + elmer_grid(mesh_file.name, 'mesh', cwd=tmpdir, scale=[1e-3, 1e-3, 1e-3]) + elmer_solver(tmpdir) if __name__ == '__main__': - run_simulation() + run_inductance_simulation() |