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diff --git a/library/deviceModelLibrary/Transmission Lines/README.md b/library/deviceModelLibrary/Transmission Lines/README.md new file mode 100644 index 00000000..1d102dcf --- /dev/null +++ b/library/deviceModelLibrary/Transmission Lines/README.md @@ -0,0 +1,33 @@ +# Transmission Line + +Transmision lines are used to carry Radio Frequency(RF) power from one place to +another, and to do this as efficiently as possible. +In this section the lossless and lossy transmission lines will be discussed along +with the simulation results. + +## Lossless transmission line +A transmission line having no line resistance or no dielectric loss is said to be a +lossless transmission line. It means that the conductor would behave as a super- +conductor and dielectric would be made of perfect dielectric medium. In a lossless +transmission line, power sent from a generating point would be equal to power re- +ceived at the load end. There is no power dissipation in the line itself. + + +![tline](https://user-images.githubusercontent.com/43288153/184139198-e25e1e59-3b3f-415c-bf7d-99ebee4eb601.png) + +fig: Symbol of tline + + +NOTE: We have to put one space between Z0=50 and Td=3ns +This can be done in the cir.out file after creating the circuits and converting kiCad +to NgSpice. + +## Single Lossy Transmission Line +An appreciable value of series resistance and shunt conductance make up a lossy +transmission line, which allows different frequencies to transmit at various speeds. +In contrast, on a lossless transmission line, wave propagation rates are constant +across all frequencies. As waves move towards the load end of the lossy transmission +line, distortion is caused by a change in speed. +The symbol for Single Lossy Transmission Lines(SLTL) is shown below- + +![ymod](https://user-images.githubusercontent.com/43288153/184139539-ed4eac77-934a-423c-8f7b-2cba4daf42d1.png) |