Automated Electronic Filter Design by Amal Banerjee

Author:Amal Banerjee
Language: eng
Format: epub
Publisher: Springer International Publishing, Cham

(4.2)

where w is the angular frequency in radians/second, mu the magnetic permeability of the material in between the two conductors of the transmission line and epsilon the electrical permittivity of the insulating material between the conductors, the four electrical and magnetic field vectors of the most general transmission line are:

(4.2a)

(4.2b)

where is the cut-off wavenumber, lambda the wavelength of the electromagnetic signal/wave. The electrical permittivity of the transmission line material between conductors is epsilon = epsilonr . epsilon0(1 − tan(delta)) where epsilonr is the relative permittivity, epsilon0 is the permittivity of free space and delta is the dielectric loss tangent.

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