A load ZL = 10 − j20 [Ω] is used to terminate a lossless transmission line with Z0 = 50 [Ω]. Use the Smith chart on the next page page to solve this problem.(a) (2 points) What is the normalized impedance zL of the load?(b) (2 points) What is the magnitude and phase of the load voltage reflection coefficient?(c) (2 points) What is the voltage standing wave ratio (VSWR) on the line?(d) (4 points) Now we want to design matching networks to match the load to Z0 by inserting a quarter wave transformer (part d and e) at distance dq away to the load. What is the shortest distance to the load dq in this case? Provide your answer in terms of wavelengths.
A load ZL = 10 − j20 [Ω] is used to terminate a lossless transmission line with Z0 = 50 [Ω]. Use the Smith chart on the next page page to solve this problem.
(a) (2 points) What is the normalized impedance zL of the load?
(b) (2 points) What is the magnitude and phase of the load voltage reflection coefficient?(c) (2 points) What is the voltage standing wave ratio (VSWR) on the line?(d) (4 points) Now we want to design matching networks to match the load to Z0 by inserting a quarter wave transformer (part d and e) at distance dq away to the load. What is the shortest distance to the load dq in this case? Provide your answer in terms of wavelengths.
(b) (2 points) What is the magnitude and phase of the load voltage reflection coefficient?
(c) (2 points) What is the voltage standing wave ratio (VSWR) on the line?
(d) (4 points) Now we want to design matching networks to match the load to Z0 by inserting a quarter wave transformer (part d and e) at distance dq away to the load. What is the shortest distance to the load dq in this case? Provide your answer in terms of wavelengths.
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Smith Chart WRITER 10ա հա (Աաաէ ** : TTP'76՝