propagation_axis=Axis("x"),
trace_layer=3,
gnd_layer=2,
gnd_gap=(gcpw_gap, gcpw_gap),
via_gap=(None, None),
via=None,
port_number=2,
excite=False,
)
mesh = Mesh(
sim=sim,
metal_res=1 / 80,
nonmetal_res=1 / 40,
smooth=(1.3, 1.5, 1.5),
min_lines=3,
expand_bounds=((0, 0), (8, 8), (8, 8)),
)
dump = FieldDump(sim=sim, box=mesh.sim_box(include_pml=False))
sim.run()
sim.view_field()
print_table(
data=[sim.freq / 1e9, sim.s_param(1, 1),
sim.s_param(2, 1)],
col_names=["freq", "s11", "s21"],
prec=[4, 4, 4],
)
radius=coax_rad,
core_radius=core_rad,
shield_thickness=mil_to_mm(5),
dielectric=coax_dielectric,
propagation_axis=Axis("x", direction=-1),
port_number=2,
ref_impedance=50,
)
mesh = Mesh(
sim=sim,
metal_res=1 / 120,
nonmetal_res=1 / 10,
min_lines=5,
expand_bounds=((0, 0), (0, 0), (20, 20)),
)
box = mesh.sim_box(include_pml=False)
field = FieldDump(sim=sim, box=box, dump_type=DumpType.efield_time)
sim.run()
sim.view_field()
s11 = sim.s_param(1, 1)
s21 = sim.s_param(2, 1)
print_table(
data=[sim.freq / 1e9, s11, s21],
col_names=["freq", "s11", "s21"],
prec=[4, 4, 4],
)
def sim_func(cutout_width: float):
"""
"""
sim = Simulation(freq=freq, unit=unit, reference_frequency=ref_freq)
core_rad = (coax_core_diameter(
2 * coax_rad, coax_dielectric.epsr_at_freq(sim.reference_frequency)) /
2)
pcb_prop = common_pcbs["oshpark4"]
pcb = PCB(
sim=sim,
pcb_prop=pcb_prop,
length=pcb_len,
width=pcb_width,
layers=range(3),
omit_copper=[0],
)
Microstrip(
pcb=pcb,
position=Coordinate2(0, 0),
length=pcb_len,
width=trace_width,
propagation_axis=Axis("x"),
trace_layer=0,
gnd_layer=1,
port_number=1,
ref_impedance=50,
excite=True,
)
# Mueller BU-1420701851 edge mount SMA
pad = sim.csx.AddConductingSheet(
"pad",
conductivity=pcb_prop.metal_conductivity(),
thickness=pcb_prop.copper_thickness(0),
)
pad.AddBox(
priority=priorities["trace"],
start=[pcb_len / 2 - sma_lead_len / 2, -sma_lead_width / 2, 0],
stop=[pcb_len / 2, sma_lead_width / 2, 0],
)
pad_cutout = sim.csx.AddMaterial(
"gnd_cutout",
epsilon=pcb_prop.substrate.epsr_at_freq(ref_freq),
kappa=pcb_prop.substrate.kappa_at_freq(ref_freq),
)
pad_cutout.AddBox(
priority=priorities["keepout"],
start=[
pcb_len / 2 - sma_lead_len / 2,
-cutout_width / 2,
pcb.copper_layer_elevation(1),
],
stop=[pcb_len / 2, cutout_width / 2,
pcb.copper_layer_elevation(1)],
)
sma_box = sim.csx.AddMetal("sma_box")
sma_box.AddBox(
priority=priorities["ground"],
start=[
pcb_len / 2,
-sma_rect_width / 2,
-sma_rect_height / 2 + sma_lead_height / 2,
],
stop=[
pcb_len / 2 + sma_rect_length,
sma_rect_width / 2,
sma_rect_height / 2 + sma_lead_height / 2,
],
)
sma_keepout = sim.csx.AddMaterial(
"sma_keepout",
epsilon=coax_dielectric.epsr_at_freq(ref_freq),
kappa=coax_dielectric.kappa_at_freq(ref_freq),
)
sma_keepout.AddCylinder(
priority=priorities["keepout"],
start=[pcb_len / 2, 0, sma_lead_height / 2],
stop=[pcb_len / 2 + sma_rect_length, 0, sma_lead_height / 2],
radius=coax_rad,
)
for ypos in [
-sma_rect_width / 2,
sma_rect_width / 2 - sma_gnd_prong_width,
]:
# sma_box.AddBox(
# priority=priorities["ground"],
# start=[pcb_len / 2 - sma_gnd_prong_len, ypos, 0],
# stop=[
# pcb_len / 2,
# ypos + sma_gnd_prong_width,
# sma_gnd_prong_height
# ],
# )
# sma_box.AddBox(
# priority=priorities["ground"],
# start=[
# pcb_len / 2 - sma_gnd_prong_len,
# ypos,
# pcb.copper_layer_elevation(1)
# ],
# stop=[
# pcb_len / 2,
# ypos + sma_gnd_prong_width,
# pcb.copper_layer_elevation(1) - sma_gnd_prong_height,
# ],
# )
sma_box.AddBox(
priority=priorities["ground"],
start=[
pcb_len / 2 - sma_gnd_prong_len,
ypos,
pcb.copper_layer_elevation(1) - sma_gnd_prong_height,
],
stop=[
pcb_len / 2,
ypos + sma_gnd_prong_width,
sma_gnd_prong_height,
],
)
lead = sim.csx.AddMetal("lead")
lead.AddBox(
priority=priorities["trace"],
start=[pcb_len / 2 - sma_lead_len / 2, -sma_lead_width / 2, 0],
stop=[
pcb_len / 2 + sma_rect_length,
sma_lead_width / 2,
sma_lead_height,
],
)
# coax port
Coax(
sim=sim,
position=Coordinate3(
pcb_len / 2 + sma_rect_length + coax_len / 2,
0,
sma_lead_height / 2,
),
length=coax_len,
radius=coax_rad,
core_radius=core_rad,
shield_thickness=mil_to_mm(5),
dielectric=coax_dielectric,
propagation_axis=Axis("x", direction=-1),
port_number=2,
ref_impedance=50,
)
mesh = Mesh(
sim=sim,
metal_res=1 / 120,
nonmetal_res=1 / 10,
min_lines=5,
expand_bounds=((0, 0), (0, 0), (10, 10)),
)
box = mesh.sim_box(include_pml=False)
sim.run(csx=False)
s11 = sim.s_param(1, 1)
s21 = sim.s_param(2, 1)
print("cutout width: {}".format(cutout_width))
print_table(
data=[sim.freq / 1e9, s11, s21],
col_names=["freq", "s11", "s21"],
prec=[4, 4, 4],
)
return np.sum(s11)
