5. Double Stub Matching Network Design a double shunt open-circuit stub matching network to match a load impedance Z, = 80-j60 Ω to a 50 Ω air-filled line operating at frequency f = 1 GHz、The di...
Stub Matching Netowrks Use a SMith chart to design an open-circuit shunt-stub transmision line single-stub matching network to transform a 50ohm termination to a load impedance of ZL=10+j30ohm with system impedance of 50 ohm. sketch the network, indicate the line lenghts on the sketch, and specify the stub and line lenghts in wavelenghts.
6. Design two single-stub matching networks as shown below. Transform the load impedance Z (60 j45) Ω to match an input impedance of Z,-(75+j90)Ω. Assume that both the stub and the transmission line shown below have a characteristic impedance of Zo-50 Ω. Zot I ZoL.l ZL lm in Open or -) : short circuit , open or short circuit 6. Design two single-stub matching networks as shown below. Transform the load impedance Z (60 j45) Ω to match an input...
Design two parallel open single-stub matching network that match a load 60-j45 Ω to a source with an internal impedance 75-j90 Ω. Assume that both stub and the transmission line have a characteristic impedance of 75 Ω.
[50] You have a load with impedance (10+j10)? at the design frequency, f-100 MHz, that you want to match to a 50? transmission line (v,-3.108m/s). Using Smith charts, construct matching networks using the following elements: (a) a short-circuited parallel stub, (b) an open- circuited parallel stub, (c) a short-circuited series stub, (d) an open-circuited series stub, (e) a quarter-wave transformer. Assume ideal components. Specify the length of each transmission line in meters. ·