def __init__(self, rawX, rawY, **kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self, rawX, rawY)
Fittable.__init__(self,
X=rawX,
Y=Unit.dBm2W(rawY),
unit_y=Unit.W,
**kwds)
def __init__(self, rawX, rawY, **kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self, rawX, rawY)
Fittable.__init__(self,
X=rawX,
Y=Unit.dB2Number(rawY),
unit_y=None,
**kwds)
def __init__(self,rawX,rawY,rbw,**kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self,rawX,rawY)
try:
self.measParam["rbw"] = rbw
except (AttributeError,RuntimeError):
self.measParam = {"rbw" : rbw}
rbw = Unit.toSI(rbw).asNumber()
Fittable.__init__(self,X = rawX,Y = Unit.dBm2W(rawY)/rbw,unit_y = Unit.W/Unit.Hz,**kwds)
def __init__(self, rawX, rawY, rbw, **kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self, rawX, rawY)
try:
self.measParam["rbw"] = rbw
except (AttributeError, RuntimeError):
self.measParam = {"rbw": rbw}
rbw = Unit.toSI(rbw).asNumber()
Fittable.__init__(self,
X=rawX,
Y=Unit.dBm2W(rawY) / rbw,
unit_y=Unit.W / Unit.Hz,
**kwds)
def __init__(self,rawX,rawY,**kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self,rawX,rawY)
Fittable.__init__(self,X = rawX,Y = Unit.dBm2W(rawY),unit_y = Unit.W,**kwds)
def __load__(self,f,cp):
Fittable.__load__(self,f,cp)
def __init__(self,rawX,rawY,**kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self,rawX,rawY)
Fittable.__init__(self,X = rawX,Y = rawY,**kwds)
def __init__(self,rawX,rawY,**kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self,rawX,rawY)
Fittable.__init__(self,X = rawX,Y = Unit.dB2Number(rawY),unit_y = None,**kwds)
def __load__(self, f, cp):
Fittable.__load__(self, f, cp)
def __init__(self, rawX, rawY, **kwds):
# loadSave.Saveable.__init__(self,**kwds)
__Trace__.__init__(self, rawX, rawY)
Fittable.__init__(self, X=rawX, Y=rawY, **kwds)