A lossless transmission line with Zo=78 [Ohms] is terminated with load ZL=39+j62.4 [Ohms]. If the generator frequency is 2x10^8 Hz and the T.L. length is 9.3 meters; using Smith chart find...

Extracted text: A lossless transmission line with Zo=78 [Ohms] is terminated with load ZL=39+j62.4 [Ohms]. If the generator frequency is 2x10^8 Hz and the T.L. length is 9.3 meters; using Smith chart find (approximately): * 1.15- 21.66 15 27 6.2 1.5 0.195 0.14 1.2+j1. j1.5 The reflection coefficient at the load The angle of the reflection coefficient [degree] The VSWR The minimum impedance of the T.L. [Ohms] The signal wavelength (lambda) [m] The T.L. length in terms of lambda The NORMALIZED input impedance of the T.L. if a quarter wavelength transformer with Zot>Zo is used to match the load to the T.L., at what distance form the load you should put it (in meter unit)? S que onequnes one esponse perTow


Extracted text: A lossless transmission line with Zo=78 [Ohms] is terminated with load ZL=39+j62.4 [Ohms]. If the generator frequency is 2x10^8 Hz and the T.L. length is 9.3 meters; using Smith chart find (approximately): * 0.7 0.42 0.56 48 94 56 3 3.95 3.6 The reflection coefficient at the load The angle of the reflection coefficient [degree] The VSWR The minimum impedance of the T.L. [Ohms] The signal wavelength (lambda) [m] The T.L. length in terms of lambda The NORMALIZED input impedance of the T.L. if a quarter wavelength transformer with Zot>Zo is used to match the load to the T.L., at what distance form the load you should put it (in meter unit)? This question requires one response per row