skrf.media.mline.MLine.analyse_loss¶
- MLine.analyse_loss(ep_r, ep_reff, tand, rho, mu_r, zl_eff_f1, zl_eff_f2, f, w, t, D)[source]¶
The function calculates the conductor and dielectric losses of a single microstrip line using wheeler’s incremental inductance rule.
References
- 1
H. A. Wheeler, “Formulas for the Skin Effect,” Proceedings of the IRE, vol. 30, no. 9, pp. 412-424, Sept. 1942.
- Returns
a_conductor (
numpy.ndarray)a_dielectric (
numpy.ndarray)
- Parameters
ep_r (Union[Number, Sequence[Number], ndarray]) –
ep_reff (Union[Number, Sequence[Number], ndarray]) –
tand (Union[Number, Sequence[Number], ndarray]) –
rho (Union[Number, Sequence[Number], ndarray]) –
mu_r (Union[Number, Sequence[Number], ndarray]) –
zl_eff_f1 (Union[Number, Sequence[Number], ndarray]) –
zl_eff_f2 (Union[Number, Sequence[Number], ndarray]) –
f (Union[Number, Sequence[Number], ndarray]) –
w (Union[Number, Sequence[Number], ndarray]) –
t (Union[Number, Sequence[Number], ndarray]) –
D (Union[Number, Sequence[Number], ndarray]) –