jwh
Junior Member level 1
Folks,
I am interested in simulating a series of slot lines and CPW transmission lines in a complex geometry (these lines are buried in layer dielectrics). I have a number of lumped impedance boundary conditions inside the structure to simulate active device response at a specific frequency. The transmission line geometry is parameterized; the characteristic impedance of a given TL is a function of the TL's geometry, as such, terminating these lines with "perfectly matched loads" cannot be done with a lumpedRLC boundary condition.
Any ideas how I would go about terminating a TL with a boundary condition (keep in mind the location of some of these terminations are not on the model's internal surface) ensuring no reflected power as I sweep the TL geometry parameters?
Thanks!
I am interested in simulating a series of slot lines and CPW transmission lines in a complex geometry (these lines are buried in layer dielectrics). I have a number of lumped impedance boundary conditions inside the structure to simulate active device response at a specific frequency. The transmission line geometry is parameterized; the characteristic impedance of a given TL is a function of the TL's geometry, as such, terminating these lines with "perfectly matched loads" cannot be done with a lumpedRLC boundary condition.
Any ideas how I would go about terminating a TL with a boundary condition (keep in mind the location of some of these terminations are not on the model's internal surface) ensuring no reflected power as I sweep the TL geometry parameters?
Thanks!