def createSiliconDriftDiffusionAtContact(device, region, contact):
format_dict = {"contact": contact}
for name, equation in (
("%(contact)snodeelectrons",
"ifelse(NetDoping > 0, Electrons - celec_%(contact)s, Electrons - n_i^2/chole_%(contact)s)"
),
("%(contact)snodeholes",
"ifelse(NetDoping < 0, Holes - chole_%(contact)s, Holes - n_i^2/celec_%(contact)s)"
),
("%(contact)snodeelectrons:Electrons", "1.0"),
("%(contact)snodeholes:Holes", "1.0"),
):
name_sub = name % format_dict
equation_sub = equation % format_dict
devsim.contact_node_model(device=device,
contact=contact,
name=name_sub,
equation=equation_sub)
devsim.contact_equation(device=device,
contact=contact,
name="ElectronContinuityEquation",
variable_name="Electrons",
node_model="%snodeelectrons" % contact,
edge_current_model="ElectronCurrent")
devsim.contact_equation(device=device,
contact=contact,
name="HoleContinuityEquation",
variable_name="Holes",
node_model="%snodeholes" % contact,
edge_current_model="HoleCurrent")
def createSiliconPotentialOnlyContact(device, region, contact):
bias_name = "%sbias" % contact
format_dict = {"contact": contact}
devsim.set_parameter(device=device,
region=region,
name=bias_name,
value=0.0)
for name, equation in (
("celec_%(contact)s",
"1e-10 + 0.5*abs(NetDoping+(NetDoping^2 + 4 * n_i^2)^(0.5))"),
("chole_%(contact)s",
"1e-10 + 0.5*abs(-NetDoping+(NetDoping^2 + 4 * n_i^2)^(0.5))"),
("%(contact)snodemodel", '''
ifelse(NetDoping > 0,
Potential-%(contact)sbias-V_t*log(celec_%(contact)s/n_i),
Potential-%(contact)sbias+V_t*log(chole_%(contact)s/n_i))'''),
("%(contact)snodemodel:Potential", "1"),
):
name_sub = name % format_dict
equation_sub = equation % format_dict
devsim.contact_node_model(device=device,
contact=contact,
name=name_sub,
equation=equation_sub)
devsim.contact_equation(device=device,
contact=contact,
name="PotentialEquation",
variable_name="Potential",
node_model="%snodemodel" % contact)
def SetupCarrierResistorContact(device,
contact,
use_circuit_bias=False,
circuit_node=""):
'''
Electron continuity equation at contact
'''
if circuit_node:
bias_name = circuit_node
else:
bias_name = contact + "bias"
region = devsim.get_region_list(device=device, contact=contact)[0]
if 'celec' not in devsim.get_node_model_list(device=device, region=region):
devsim.node_model(
device=device,
region=region,
name="celec",
equation=
"0.5*(NetDoping+(NetDoping^2 + 4 * IntrinsicDensity^2)^(0.5))")
for name, equation in (
("%snodeelectrons" % contact, "Electrons - celec"),
("%snodeelectrons:Electrons" % contact, "1."),
):
devsim.contact_node_model(device=device,
contact=contact,
name=name,
equation=equation)
if use_circuit_bias:
devsim.contact_equation(device=device,
contact=contact,
name="ElectronContinuityEquation",
variable_name="Electrons",
node_model="%snodeelectrons" % contact,
edge_current_model="ElectronCurrent",
circuit_node=bias_name)
else:
devsim.contact_equation(device=device,
contact=contact,
name="ElectronContinuityEquation",
variable_name="Electrons",
node_model="%snodeelectrons" % contact,
edge_current_model="ElectronCurrent")
def CreateContactNodeModel(device, contact, model, expression):
'''
Creates a contact node model
'''
result = ds.contact_node_model(device=device,
contact=contact,
name=model,
equation=expression)
if debug:
print(("CONTACTNODEMODEL {d} {c} {m} \"{re}\"".format(d=device,
c=contact,
m=model,
re=result)))
def SetupInitialResistorContact(device, contact, use_circuit_bias=False, circuit_node=""):
if circuit_node:
bias_name = circuit_node
else:
bias_name = contact + "bias"
bias_node_model = contact + "node_model"
devsim.contact_node_model(device=device, contact=contact, name=bias_node_model, equation="Potential - %s" % bias_name)
devsim.contact_node_model(device=device, contact=contact, name="%s:Potential" % bias_node_model, equation="1")
if use_circuit_bias:
devsim.contact_node_model(device=device, contact=contact, name="%s:%s" % (bias_node_model, bias_name), equation="-1")
#edge_model -device $device -region $region -name "contactcharge_edge_top" -equation $conteq
if use_circuit_bias:
devsim.contact_equation(device=device, contact=contact, name="PotentialEquation", variable_name="Potential",
node_model=bias_node_model, circuit_node=bias_name)
else:
devsim.contact_equation(device=device, contact=contact, name="PotentialEquation", variable_name="Potential",
node_model=bias_node_model)
