def __init__(self, ideal_network):
'''
takes:
ideal_network: a Network instance of the standard
'''
ParametricStandard.__init__(self, \
function = lambda: ideal_network)
def __init__(self, ideal_network):
'''
takes:
ideal_network: a Network instance of the standard
'''
ParametricStandard.__init__(self, \
function = lambda: ideal_network)
def __init__(self, media,d,Gamma0,**kwargs):
'''
takes:
media: a Media type
d: initial guess distance to termination, in m.
Gamma0: initial guess for complex reflection coefficient
of load. [complex number]
**kwargs: passed to self.function
'''
ParametricStandard.__init__(self, \
function = media.delay_load,\
parameters = {'d':d,'Gamma0':Gamma0},\
**kwargs\
)
def __init__(self, media, d, Gamma0, **kwargs):
'''
takes:
media: a Media type
d: initial guess distance to termination, in m.
Gamma0: initial guess for complex reflection coefficient
of load. [complex number]
**kwargs: passed to self.function
'''
ParametricStandard.__init__(self, \
function = media.delay_load,\
parameters = {'d':d,'Gamma0':Gamma0},\
**kwargs\
)
def __init__(self, media, d,**kwargs):
'''
takes:
media: a skrf.Media type
d: initial guess for line length [m]*
**kwargs: passed to self.function
*note:
the Media.line function can take the kwarg 'unit', in case
you want to specify the line length in electrical length
'''
ParametricStandard.__init__(self, \
function = media.line,\
parameters = {'d':d},\
**kwargs\
)
def __init__(self, media, d, **kwargs):
'''
takes:
media: a skrf.Media type
d: initial guess for line length [m]*
**kwargs: passed to self.function
*note:
the Media.line function can take the kwarg 'unit', in case
you want to specify the line length in electrical length
'''
ParametricStandard.__init__(self, \
function = media.line,\
parameters = {'d':d},\
**kwargs\
)
def __init__(self, media,d,Gamma0,**kwargs):
'''
takes:
media: a skrf.Media type
d: initial guess for distance to termination (in m)*
Gamma0: complex reflection coefficient off load
[complex number of array]
**kwargs: passed to self.function
*note:
the Media.line function can take the kwarg 'unit', in case
you want to specify the line length in electrical length
'''
kwargs.update({'Gamma0':Gamma0})
ParametricStandard.__init__(self, \
function = media.delay_load,\
parameters = {'d':d},\
**kwargs\
)
def __init__(self, media, d, Gamma0, **kwargs):
'''
takes:
media: a skrf.Media type
d: initial guess for distance to termination (in m)*
Gamma0: complex reflection coefficient off load
[complex number of array]
**kwargs: passed to self.function
*note:
the Media.line function can take the kwarg 'unit', in case
you want to specify the line length in electrical length
'''
kwargs.update({'Gamma0': Gamma0})
ParametricStandard.__init__(self, \
function = media.delay_load,\
parameters = {'d':d},\
**kwargs\
)
def __init__(self, media,L,ntwk,**kwargs):
'''
takes:
media: a skrf.Media type
L: initial guess at connector inductance, in henrys
ntwk: network type, representing the standard after the
unknown capacitor
**kwargs: passed to self.function
*note:
the Media.line function can take the kwarg 'unit', in case
you want to specify the line length in electrical length
'''
def func(*args, **kwargs):
return media.shunt_inductor(*args, **kwargs)**ntwk
ParametricStandard.__init__(self, \
function = func,\
parameters = {'L':L},\
**kwargs\
)
def __init__(self, media, L, ntwk, **kwargs):
'''
takes:
media: a skrf.Media type
L: initial guess at connector inductance, in henrys
ntwk: network type, representing the standard after the
unknown capacitor
**kwargs: passed to self.function
*note:
the Media.line function can take the kwarg 'unit', in case
you want to specify the line length in electrical length
'''
def func(*args, **kwargs):
return media.shunt_inductor(*args, **kwargs)**ntwk
ParametricStandard.__init__(self, \
function = func,\
parameters = {'L':L},\
**kwargs\
)