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authorjaseg <git@jaseg.de>2023-10-13 18:22:00 +0200
committerjaseg <git@jaseg.de>2023-10-13 18:22:00 +0200
commit1ce02a9d25a943ab90c819d23c4d0bbed684eba4 (patch)
treebe62179a9573b4cd598f46fe2208bd6a5d90969b
parent0ae13de322386d1691de8f17491540d65178f865 (diff)
downloadgerbonara-1ce02a9d25a943ab90c819d23c4d0bbed684eba4.tar.gz
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Update sims & gen
-rw-r--r--coil_mag_materials.yml1
-rw-r--r--coil_parasitics.py124
-rw-r--r--coil_test_board.py142
-rw-r--r--twisted_coil_gen_twolayer.py24
4 files changed, 222 insertions, 69 deletions
diff --git a/coil_mag_materials.yml b/coil_mag_materials.yml
index 2f19103..d1875d7 100644
--- a/coil_mag_materials.yml
+++ b/coil_mag_materials.yml
@@ -23,6 +23,7 @@ copper:
Heat Capacity: 415.0 # 200°C
Heat Conductivity: 401.0 # 0°C
Relative Permeability: 1
+ Relative Permittivity: 1
steel_1.4541:
Density: 7900.0 # 20°C
Electric Conductivity: 1370
diff --git a/coil_parasitics.py b/coil_parasitics.py
index 46552c7..3ed02dd 100644
--- a/coil_parasitics.py
+++ b/coil_parasitics.py
@@ -116,7 +116,7 @@ def cli():
@cli.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 self_capacitance(mesh_file, sim_dir):
+def capacitance_matrix(mesh_file, sim_dir):
physical = dict(enumerate_mesh_bodies(mesh_file))
if sim_dir is not None:
sim_dir = Path(sim_dir)
@@ -133,14 +133,14 @@ def self_capacitance(mesh_file, sim_dir):
'Unit Charge': str(constants.elementary_charge)})
air = elmer.load_material('air', sim, 'coil_parasitics_materials.yml')
- ro4003c = elmer.load_material('ro4003c', sim, 'coil_parasitics_materials.yml')
+ fr4 = elmer.load_material('fr4', sim, 'coil_parasitics_materials.yml')
solver_electrostatic = elmer.load_solver('Electrostatics_Capacitance', sim, 'coil_parasitics_solvers.yml')
solver_electrostatic.data['Potential Difference'] = '1.0'
eqn = elmer.Equation(sim, 'main', [solver_electrostatic])
bdy_sub = elmer.Body(sim, 'substrate', [physical['substrate'][1]])
- bdy_sub.material = ro4003c
+ bdy_sub.material = fr4
bdy_sub.equation = eqn
bdy_ab = elmer.Body(sim, 'airbox', [physical['airbox'][1]])
@@ -202,7 +202,7 @@ def inductance(mesh_file, sim_dir, solver_method):
'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')
+ fr4 = elmer.load_material('fr4', 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')
@@ -219,7 +219,7 @@ def inductance(mesh_file, sim_dir, solver_method):
bdy_trace.equation = copper_eqn
bdy_sub = elmer.Body(sim, 'substrate', [physical['substrate'][1]])
- bdy_sub.material = ro4003c
+ bdy_sub.material = fr4
bdy_sub.equation = air_eqn
bdy_ab = elmer.Body(sim, 'airbox', [physical['airbox'][1]])
@@ -313,7 +313,7 @@ def mutual_inductance(mesh_file, sim_dir, reference_field):
'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')
+ fr4 = elmer.load_material('fr4', 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')
@@ -332,11 +332,11 @@ def mutual_inductance(mesh_file, sim_dir, reference_field):
bdy_trace2.equation = copper_eqn
bdy_sub1 = elmer.Body(sim, 'substrate1', [physical['substrate1'][1]])
- bdy_sub1.material = ro4003c
+ bdy_sub1.material = fr4
bdy_sub1.equation = air_eqn
bdy_sub2 = elmer.Body(sim, 'substrate2', [physical['substrate2'][1]])
- bdy_sub2.material = ro4003c
+ bdy_sub2.material = fr4
bdy_sub2.equation = air_eqn
@@ -422,6 +422,114 @@ def mutual_inductance(mesh_file, sim_dir, reference_field):
print(f'Mutual inductance calucated from field: {format_si(Lm, "H")}')
+@cli.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 self_capacitance(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', 'self_capacitance_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')
+ fr4 = elmer.load_material('fr4', sim, 'coil_mag_materials.yml')
+ copper = elmer.load_material('copper', sim, 'coil_mag_materials.yml')
+
+ solver_current = elmer.load_solver('StaticCurrent', sim, 'self_capacitance_solvers.yml')
+ solver_estat = elmer.load_solver('Electrostatics', sim, 'self_capacitance_solvers.yml')
+
+ copper_eqn = elmer.Equation(sim, 'copperEqn', [solver_current, solver_estat])
+ air_eqn = elmer.Equation(sim, 'airEqn', [solver_estat])
+
+ 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 = fr4
+ 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
+
+ potential_force = elmer.BodyForce(sim, 'electric_potential', {'Potential': 'Equals "PotentialStat"'})
+ bdy_trace.body_force = potential_force
+
+ # 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['PotentialStat'] = 'Real 1.0'
+ boundary_vplus.data['Save Scalars'] = True
+
+ boundary_vminus = elmer.Boundary(sim, 'Vminus', [physical['interface_bottom'][1]])
+ boundary_vminus.data['PotentialStat'] = 'Real 0.0'
+
+ with tempfile.TemporaryDirectory() as tmpdir:
+ tmpdir = sim_dir if sim_dir else Path(tmpdir)
+
+ 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.absolute(), 'mesh', cwd=tmpdir, scale=[1e-3, 1e-3, 1e-3],
+ stdout_log=(tmpdir / 'ElmerGrid_stdout.log'),
+ stderr_log=(tmpdir / 'ElmerGrid_stderr.log'))
+ solver_stdout, solver_stderr = (tmpdir / 'ElmerSolver_stdout.log'), (tmpdir / 'ElmerSolver_stderr.log')
+ res = elmer_solver(tmpdir,
+ stdout_log=solver_stdout,
+ stderr_log=solver_stderr)
+
+ P, R, U_mag = None, None, None
+ solver_error = False
+ for l in res.stdout.splitlines():
+ if (m := re.fullmatch(r'StatCurrentSolve:\s*Total Heating Power\s*:\s*([0-9.+-Ee]+)\s*', l)):
+ P = float(m.group(1))
+ elif (m := re.fullmatch(r'StatCurrentSolve:\s*Effective Resistance\s*:\s*([0-9.+-Ee]+)\s*', l)):
+ R = float(m.group(1))
+ elif (m := re.fullmatch(r'MagnetoDynamicsCalcFields:\s*ElectroMagnetic Field Energy\s*:\s*([0-9.+-Ee]+)\s*', l)):
+ U_mag = float(m.group(1))
+ elif re.fullmatch(r'IterSolve: Linear iteration did not converge to tolerance', l):
+ solver_error = True
+
+ if solver_error:
+ raise click.ClickException(f'Error: One of the solvers did not converge. See log files for details:\n{solver_stdout.absolute()}\n{solver_stderr.absolute()}')
+ elif P is None or R is None or U_mag is None:
+ raise click.ClickException(f'Error during solver execution. Electrical parameters could not be calculated. See log files for details:\n{solver_stdout.absolute()}\n{solver_stderr.absolute()}')
+
+ V = math.sqrt(P*R)
+ I = math.sqrt(P/R)
+ L = 2*U_mag / (I**2)
+
+ assert math.isclose(V, 1.0, abs_tol=1e-3)
+
+ print(f'Total magnetic field energy: {format_si(U_mag, "J")}')
+ print(f'Reference coil current: {format_si(I, "Ω")}')
+ print(f'Coil resistance calculated by solver: {format_si(R, "Ω")}')
+ print(f'Inductance calucated from field: {format_si(L, "H")}')
+
+
+
if __name__ == '__main__':
cli()
diff --git a/coil_test_board.py b/coil_test_board.py
index ddab2ae..eaafbd2 100644
--- a/coil_test_board.py
+++ b/coil_test_board.py
@@ -1,47 +1,53 @@
#!/usr/bin/env python3
import math
+import re
import itertools
import datetime
import tempfile
import subprocess
+import sqlite3
+import json
+
+import tqdm
import gerbonara.cad.kicad.pcb as pcb
import gerbonara.cad.kicad.footprints as fp
import gerbonara.cad.primitives as cad_pr
import gerbonara.cad.kicad.graphical_primitives as kc_gr
+
cols = 6
rows = 4
coil_specs = [
- {'n': 1, 's': True, 't': 1, 'c': 0.20, 'w': 5.00, 'v': 0.40},
- {'n': 2, 's': True, 't': 1, 'c': 0.20, 'w': 3.00, 'v': 0.40},
- {'n': 3, 's': True, 't': 1, 'c': 0.20, 'w': 1.50, 'v': 0.40},
- {'n': 5, 's': True, 't': 1, 'c': 0.20, 'w': 0.80, 'v': 0.40},
- {'n': 10, 's': True, 't': 1, 'c': 0.20, 'w': 0.50, 'v': 0.40},
- {'n': 25, 's': True, 't': 1, 'c': 0.15, 'w': 0.25, 'v': 0.40},
-
- {'n': 1, 's': False, 't': 1, 'c': 0.20, 'w': 5.00, 'v': 0.40},
- {'n': 2, 's': False, 't': 1, 'c': 0.20, 'w': 3.00, 'v': 0.40},
- {'n': 3, 's': False, 't': 1, 'c': 0.20, 'w': 1.50, 'v': 0.40},
- {'n': 5, 's': False, 't': 1, 'c': 0.20, 'w': 0.80, 'v': 0.40},
- {'n': 10, 's': False, 't': 1, 'c': 0.20, 'w': 0.50, 'v': 0.40},
- {'n': 25, 's': False, 't': 1, 'c': 0.15, 'w': 0.25, 'v': 0.40},
-
- {'n': 1, 's': False, 't': 3, 'c': 0.20, 'w': 5.00, 'v': 0.40},
- {'n': 2, 's': False, 't': 3, 'c': 0.20, 'w': 3.00, 'v': 0.40},
- {'n': 3, 's': False, 't': 2, 'c': 0.20, 'w': 1.50, 'v': 0.40},
- {'n': 5, 's': False, 't': 2, 'c': 0.20, 'w': 0.80, 'v': 0.40},
- {'n': 10, 's': False, 't': 3, 'c': 0.20, 'w': 0.50, 'v': 0.40},
- {'n': 25, 's': False, 't': 2, 'c': 0.15, 'w': 0.25, 'v': 0.40},
-
- {'n': 1, 's': False, 't': 5, 'c': 0.20, 'w': 5.00, 'v': 0.40},
- {'n': 2, 's': False, 't': 5, 'c': 0.20, 'w': 3.00, 'v': 0.40},
- {'n': 3, 's': False, 't': 4, 'c': 0.20, 'w': 1.50, 'v': 0.40},
- {'n': 5, 's': False, 't': 3, 'c': 0.20, 'w': 0.80, 'v': 0.40},
- {'n': 10, 's': False, 't': 7, 'c': 0.20, 'w': 0.50, 'v': 0.40},
- {'n': 25, 's': False, 't': 7, 'c': 0.15, 'w': 0.25, 'v': 0.40},
+ {'n': 1, 's': True, 't': 1, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00},
+ {'n': 2, 's': True, 't': 1, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00},
+ {'n': 3, 's': True, 't': 1, 'c': 0.20, 'w': 1.50, 'd': 1.20, 'v': 2.00},
+ {'n': 5, 's': True, 't': 1, 'c': 0.20, 'w': 0.80, 'd': 0.40, 'v': 0.80},
+ {'n': 10, 's': True, 't': 1, 'c': 0.20, 'w': 0.50, 'd': 0.30, 'v': 0.60},
+ {'n': 25, 's': True, 't': 1, 'c': 0.15, 'w': 0.25, 'd': 0.30, 'v': 0.60},
+
+ {'n': 1, 's': False, 't': 3, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00},
+ {'n': 2, 's': False, 't': 1, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00},
+ {'n': 3, 's': False, 't': 1, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 2.00},
+ {'n': 5, 's': False, 't': 1, 'c': 0.20, 'w': 2.50, 'd': 0.40, 'v': 0.80},
+ {'n': 10, 's': False, 't': 1, 'c': 0.20, 'w': 1.50, 'd': 0.30, 'v': 0.60},
+ {'n': 25, 's': False, 't': 1, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60},
+
+ {'n': 1, 's': False, 't': 4, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00},
+ {'n': 2, 's': False, 't': 3, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00},
+ {'n': 3, 's': False, 't': 4, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 2.00},
+ {'n': 5, 's': False, 't': 3, 'c': 0.20, 'w': 2.50, 'd': 0.40, 'v': 0.80},
+ {'n': 10, 's': False, 't': 3, 'c': 0.20, 'w': 1.50, 'd': 0.30, 'v': 0.60},
+ {'n': 25, 's': False, 't': 3, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60},
+
+ {'n': 1, 's': False, 't': 5, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00},
+ {'n': 2, 's': False, 't': 5, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00},
+ {'n': 3, 's': False, 't': 4, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 2.00},
+ {'n': 5, 's': False, 't': 7, 'c': 0.20, 'w': 2.50, 'd': 0.40, 'v': 0.80},
+ {'n': 10, 's': False, 't': 7, 'c': 0.20, 'w': 1.50, 'd': 0.30, 'v': 0.60},
+ {'n': 25, 's': False, 't': 13, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60},
]
version_string = 'v1.0'
@@ -55,6 +61,8 @@ mouse_bite_hole_spacing = 0.3
hole_offset = 5
hole_dia = 3.2
coil_dia = 35 # mm
+coil_inner_dia = 15 # mm
+board_thickness = 0.80 # mm
pad_offset = 2 # mm
pad_dia = 2.0 # mm
pad_length = 3.5 # mm
@@ -62,6 +70,16 @@ pad_drill = 1.1 # mm
pad_pitch = 2.54 # mm
v_cuts = False # FIXME DEBUG
mouse_bites = False # FIXME DEBUG
+
+db = sqlite3.connect('coil_parameters.sqlite3')
+db.execute('CREATE TABLE IF NOT EXISTS runs (run_id INTEGER PRIMARY KEY, timestamp TEXT, version TEXT)')
+db.execute('CREATE TABLE IF NOT EXISTS coils (coil_id INTEGER PRIMARY KEY, run_id INTEGER, FOREIGN KEY (run_id) REFERENCES runs(run_id))')
+db.execute('CREATE TABLE IF NOT EXISTS results (result_id INTEGER PRIMARY KEY, coil_id INTEGER, key TEXT, value TEXT, FOREIGN KEY (coil_id) REFERENCES coils(coil_id))')
+cur = db.cursor()
+cur.execute('INSERT INTO runs(timestamp, version) VALUES (datetime("now"), ?)', (version_string,))
+run_id = cur.lastrowid
+db.commit()
+
coil_pitch = coil_dia + coil_border*2 + cut_gap
total_width = coil_pitch*cols + 2*tooling_border + cut_gap
@@ -286,52 +304,78 @@ b.add(kc_gr.Text(text=f'Planar inductor test panel {version_string} {timestamp}
thickness=a/5),
justify=pcb.Justify(h=pcb.Atom.left, v=pcb.Atom.top))))
-for index, ((y, x), spec) in enumerate(zip(itertools.product(range(rows), range(cols)), coil_specs), start=1):
+for index, ((y, x), spec) in tqdm.tqdm(enumerate(zip(itertools.product(range(rows), range(cols)), coil_specs), start=1)):
pass
with tempfile.NamedTemporaryFile(suffix='.kicad_mod') as f:
tile_x0 = x0 + tooling_border + cut_gap + x*coil_pitch + tile_width/2
tile_y0 = y0 + tooling_border + cut_gap + y*coil_pitch + tile_height/2
for key, alias in {
- 'inner_diameter': 'id',
- 'outer_diameter': 'od',
- 'trace_width': 'w',
- 'turns': 'n',
- 'twists': 't',
- 'clearance': 'c',
- 'single_layer': 's',
- 'via_drill': 'v'}.items():
+ 'gen.inner_diameter': 'id',
+ 'gen.outer_diameter': 'od',
+ 'gen.trace_width': 'w',
+ 'gen.turns': 'n',
+ 'gen.twists': 't',
+ 'gen.clearance': 'c',
+ 'gen.single_layer': 's',
+ 'gen.via_drill': 'd',
+ 'gen.via_diameter': 'v'}.items():
if alias in spec:
spec[key] = spec.pop(alias)
- if 'via_diameter' not in spec:
- spec['via_diameter'] = spec['trace_width']
+ if 'gen.via_diameter' not in spec:
+ spec['gen.via_diameter'] = spec['gen.trace_width']
- if 'inner_diameter' not in spec:
- spec['inner_diameter'] = 15
+ if 'gen.inner_diameter' not in spec:
+ spec['gen.inner_diameter'] = coil_inner_dia
- if 'outer_diameter' not in spec:
- spec['outer_diameter'] = 35
+ if 'gen.outer_diameter' not in spec:
+ spec['gen.outer_diameter'] = coil_dia
args = ['python', '-m', 'twisted_coil_gen_twolayer', '--no-keepout-zone']
for k, v in spec.items():
- if not isinstance(v, bool) or v:
+ prefix, _, k = k.partition('.')
+ if (not isinstance(v, bool) or v) and prefix == 'gen':
args.append('--' + k.replace('_', '-'))
if v is not True:
args.append(str(v))
args.append(f.name)
- subprocess.run(args, check=True)
+ res = subprocess.run(args, check=True, capture_output=True, text=True)
coil = fp.Footprint.open_mod(f.name)
coil.at = fp.AtPos(tile_x0, tile_y0, 0)
b.add(coil)
- t = [f'n={spec["turns"]}',
- f'{spec["twists"]} twists',
- f'w={spec["trace_width"]:.2f}mm']
- if spec.get('single_layer'):
+ t = [f'n={spec["gen.turns"]}',
+ f'{spec["gen.twists"]} twists',
+ f'w={spec["gen.trace_width"]:.2f}mm']
+ if spec.get('gen.single_layer'):
t.append('single layer')
+ spec['gen.board_thickness'] = board_thickness
+ cur.execute('INSERT INTO coils(run_id) VALUES (?)', (run_id,))
+ coil_id = cur.lastrowid
+
+ for key, value in spec.items():
+ if isinstance(value, bool):
+ value = str(value)
+ db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, ?, ?)', (coil_id, key, value))
+
+ for l in res.stderr.splitlines():
+ if (m := re.fullmatch(r'Approximate inductance:\s*([-+.0-9eE]+)\s*µH', l.strip())):
+ val = float(m.group(1)) * 1e-6
+ db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_approximate_inductance", ?)', (coil_id, val))
+ if (m := re.fullmatch(r'Approximate track length:\s*([-+.0-9eE]+)\s*mm', l.strip())):
+ val = float(m.group(1)) * 1e-3
+ db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_trace_length", ?)', (coil_id, val))
+ if (m := re.fullmatch(r'Approximate resistance:\s*([-+.0-9eE]+)\s*Ω', l.strip())):
+ val = float(m.group(1))
+ db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_approximate_resistance", ?)', (coil_id, val))
+ if (m := re.fullmatch(r'Fill factor:\s*([-+.0-9eE]+)', l.strip())):
+ val = float(m.group(1))
+ db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_fill_factor", ?)', (coil_id, val))
+ db.commit()
+
sz = 1.5
b.add(kc_gr.Text(text='\\n'.join(t),
at=pcb.AtPos(tile_x0, tile_y0),
@@ -361,7 +405,7 @@ for index, ((y, x), spec) in enumerate(zip(itertools.product(range(rows), range(
pads = make_pads(pads_x0, tile_y0, 270, 2, pad_dia, pad_length, pad_drill, pad_pitch)
b.add(pads)
- w = min(spec.get('trace_width', pad_dia), pad_dia)
+ w = min(spec.get('gen.trace_width', pad_dia), pad_dia)
x, y, _r, _f = pads.pad(2).abs_pos
w2 = (x - pad_length/2, y)
x, y, _r, _f = pads.pad(1).abs_pos
diff --git a/twisted_coil_gen_twolayer.py b/twisted_coil_gen_twolayer.py
index db5e26f..d131388 100644
--- a/twisted_coil_gen_twolayer.py
+++ b/twisted_coil_gen_twolayer.py
@@ -537,9 +537,9 @@ def print_valid_twists(ctx, param, value):
@click.option('--show-twists', callback=print_valid_twists, expose_value=False, type=int, is_eager=True, help='Calculate and show valid --twists counts for the given number of turns. Takes the number of turns as a value.')
@click.option('--clearance', type=float, default=None)
@click.option('--arc-tolerance', type=float, default=0.02)
+@click.option('--mesh-split-out', type=click.Path(writable=True, dir_okay=False, path_type=Path))
@click.option('--mesh-out', type=click.Path(writable=True, dir_okay=False, path_type=Path))
-@click.option('--mag-mesh-out', type=click.Path(writable=True, dir_okay=False, path_type=Path))
-@click.option('--mag-mesh-mutual-out', type=click.Path(writable=True, dir_okay=False, path_type=Path))
+@click.option('--mesh-mutual-out', type=click.Path(writable=True, dir_okay=False, path_type=Path))
@click.option('--mutual-offset-x', type=float, default=0)
@click.option('--mutual-offset-y', type=float, default=0)
@click.option('--mutual-offset-z', type=float, default=5)
@@ -550,8 +550,8 @@ def print_valid_twists(ctx, param, value):
@click.version_option()
def generate(outfile, turns, outer_diameter, inner_diameter, via_diameter, via_drill, via_offset, trace_width, clearance,
footprint_name, layer_pair, twists, clipboard, counter_clockwise, keepout_zone, keepout_margin,
- arc_tolerance, pcb, mesh_out, magneticalc_out, circle_segments, mag_mesh_out, copper_thickness,
- board_thickness, mag_mesh_mutual_out, mutual_offset_x, mutual_offset_y, mutual_offset_z, mutual_rotation_z,
+ arc_tolerance, pcb, mesh_out, magneticalc_out, circle_segments, mesh_split_out, copper_thickness,
+ board_thickness, mesh_mutual_out, mutual_offset_x, mutual_offset_y, mutual_offset_z, mutual_rotation_z,
two_layer):
if 'WAYLAND_DISPLAY' in os.environ:
@@ -562,8 +562,8 @@ def generate(outfile, turns, outer_diameter, inner_diameter, via_diameter, via_d
if gcd(twists, turns) != 1:
raise click.ClickException('For the geometry to work out, the --twists parameter must be co-prime to --turns, i.e. the two must have 1 as their greatest common divisor. You can print valid values for --twists by running this command with --show-twists [turns number].')
- if mesh_out and not pcb:
- raise click.ClickException('--pcb is required when --mesh-out is used.')
+ if (mesh_out or mesh_split_out or mesh_mutual_out) and not pcb:
+ raise click.ClickException('--pcb is required when --mesh-out, --mesh-mutual-out or --mesh-split-out are used.')
if magneticalc_out and not pcb:
raise click.ClickException('--pcb is required when --magneticalc-out is used.')
@@ -903,16 +903,16 @@ def generate(outfile, turns, outer_diameter, inner_diameter, via_diameter, via_d
traces[0] = traces[0][1:]
r = outer_diameter/2 + 20
- if mesh_out:
- traces_to_gmsh(traces, mesh_out, ((-r, -r), (r, r)), copper_thickness=copper_thickness, board_thickness=board_thickness)
+ if mesh_split_out:
+ traces_to_gmsh(traces, mesh_split_out, ((-r, -r), (r, r)), copper_thickness=copper_thickness, board_thickness=board_thickness)
- if mag_mesh_out:
- traces_to_gmsh_mag(traces, mag_mesh_out, ((-r, -r), (r, r)), copper_thickness=copper_thickness, board_thickness=board_thickness)
+ if mesh_out:
+ traces_to_gmsh_mag(traces, mesh_out, ((-r, -r), (r, r)), copper_thickness=copper_thickness, board_thickness=board_thickness)
- if mag_mesh_mutual_out:
+ if mesh_mutual_out:
m_dx, m_dy, m_dz = mutual_offset_x, mutual_offset_y, mutual_offset_z
mutual_rotation_z = math.radians(mutual_rotation_z)
- traces_to_gmsh_mag_mutual(traces, mag_mesh_mutual_out, ((-r, -r), (r, r)),
+ traces_to_gmsh_mag_mutual(traces, mesh_mutual_out, ((-r, -r), (r, r)),
copper_thickness=copper_thickness, board_thickness=board_thickness,
mutual_offset=(m_dx, m_dy, m_dz), mutual_rotation=(0, 0, mutual_rotation_z))