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calcBJTBiasBasic.m
calcCascadedNoise.m
calcMicrostripEL.m
calcMicrostripEre.m
calcMicrostripL.m
calcMicrostripMenu.m
calcMicrostripW.m
calcMicrostripZo.m
calcStabilityCircles.m
calcVSWRcircle.m
csv2mdf.m
db2r.m
dbm2watt.m
example1.m
example2.m
example3.m
example4.m
gamma2rl2vswr.m
gammaLoad2gammaIn.m
getFreqDistribution.m
getNextPlotStyle.m
getRandomColor.m
gtoz.m
importCsvColData.m
importCsvFolder.m
importS2P.m
listDir.m
loadMdf.m
materialProperties.m
plotStabilityCircles.m
ptor.m
r2db.m
rtop.m
saveMdf.m
scAddCircle.m
scAddLabels.m
scAddPoint.m
scCreate.m
singleFreqSparams.m
testStability.m
watt2dbm.m
ztog.m


calcMicrostripZo.m

%%%%~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
%%%%
%%%% Calculate Impedance of Microstrip line
%%%% - Intended to be called from the function calcMicrostripMenu.m
%%%%
%%%% Input:          
%%%% - boardspecs: structure containing the following variables.....
%%%% boardspecs.t
%%%% boardspecs.h
%%%% boardspecs.Er
%%%% boardspecs.W
%%%% boardspecs.Ere
%%%%          
%%%% Output:
%%%% - Zo: characteristic impedance of microstrip line (scalar number)
%%%%          
%%%% Usage:
%%%% boardspecs.t = 0.0078e-3; % conductor thickness
%%%% boardspecs.h = 0.787e-3; % board height
%%%% boardspecs.Er = 2.2;          % epsilon relative
%%%% boardspecs.W = 2.14e-3;          % width
%%%% boardspecs.Ere = 2.4;          % epsilon effective
%%%% Zo = calcMicrostripZo(boardspecs)
%%%%          
%%%% Primary reference: Andrei, p.149
%%%%
%%%% curtis | creatingrf[@]gmail.com
%%%% calcMicrostripZo.m
%%%% Last Edited: 9/22/13
%%%% Octave tested: 9/22/13
%%%% Matlab tested:
%%%%~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~



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