Some coaxial cable TEM mode data:

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the propagation velocity of the transverse electromagnetic TEM mode is independent of frequency (non dispersive)
in this case the wavelength is the vacuum velocity of light divided by wavelength
the wave impedance of a TEM mode in vacuum can be calculated from vacuum permittivity and permeability
the vacuum wave impedance can thus be calculated to be 377 ohms
broadly speaking, this is the free space impedance that antennas need to act as matching devices to
if the signal were propagating in solid teflon, then the permittivity is effected by the relative permittivity of PTFE
this means that the propagation velocity decreases to about 2.12*10⁹m/s, i.e. about 71 percent of the speed of light
for this reason any desired wavelength dependent length of PTFE insulated cable must be multiplied by 0.71
if the coaxial cable is "foam" (approaching vacuum or ~air) insulated, the propagation velocity factor is about 0.88
for polyethylene insulation as the propagation medium, the propagation velocity factor turns out to be about 0.66
the relative permittivity of vacuum (~dry air) is one
for a TEM mode coaxial cable using PTFE insulation we can calculate the impedance
r_o=2.0 mm, r_i=1.1 mm -> Z = 25 Ω
r_o=3.3 mm, r_i=1.0 mm -> Z = 50 Ω

Return to OH2AUE main page Updated 03.04.2010