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question a design the matching networks shown in fig p222 to produce the source reflection coefficientnbspgammas
question design the matching circuits shown in fig to transform the 50-omega load impedance to the input admittance
question a design a single-stub matching system see fig to match the load zl 15 j25 omega to a 50-omega transmission
question a design the matching circuit shown in fig to transform the 50-omega load to the input impedance zin 100 -
question the s parameters of a transistor ares11 0730degnbspnbspnbsp s12 0s21 490degnbspnbspnbspnbspnbspnbsp s22
question in each of the stability circle drawings shown in fig indicate clearly the possible locations for a stable
question show that in the indefinite scattering matrix given in 1634 the sum of the coefficient of any row is equal to
question for the two-port network in figa evaluate the sp parameters of the 159-nh inductor if z1 z2 50omegab
question consider the circuit shown in figa evaluate sp11 sp22 sp21 and sp12 with z1 z2 200omegab evaluate sp11 sp22
question a locate in the z smith chart the impedance z 100 j100 omega using a reference impedance of 50omegab find
question a show that impedances having a negative real part ie z -r jx have a reflection coefficient whose magnitude
question 1 show that the impedance along a transmission line repeats itself at every lambda2 distance that is2 show
question 1 find the input impedance the load reflection coefficient and the vswr in a trans-mission line having an
question a determine the length i of the 50-omega short-circuited transmission line shown in fig 228a so that the input
question a in the series rc circuit shown in fig the value of c is 50 pf determine the values of fa and fbb in assume
question 1 design four different ell matching networks to match the load zload 10 j40 omega to a 50-omega transmission
question 1 two types of ell matching networks are shown in fig p212 select one that can match the load yload 8 - j12 x
question a use figs 252 and 253 to calculate w lambda and eff for a characteristic impedance of 50 omega using
question 1 design a two-element matching network to transform the load zload 100 -j100 omega to an input impedance of
question in the amplifier shown in fig calculate the width and the length of the lines at f 1
question 1 find the scattering matrix and the chain scattering matrix of a transmission line of length and
question determine the s parameters of the two-port network shown in
question find the s parameters of the 1-to-n turns ratio transformer shown in fig at ports 1-2 and
question show that the overall s21 parameter of two cascade two-port networks with scat-tering matrices sa and sb
question a calculate the reflection coefficient from the 100-omega load and the vswr in the lambda4 line in figb