Use a shorted stub to match the load impedance ZL = (25 + j40)N to the 50 Q transmission line. Determine d and 1. %3D Feedline Yo YL Yo Yin Ya Load Yo Оpen Stub
Q: Q-4 A lossless 50.0 (N) transmission line is terminated in short circuit. Determine: 1- The wave…
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Q: A transmission line of characteristic impedance 50N is terminated in a load impedance ZĮ. The SWR of…
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Q: Problem 5: a. A 120 Q lossless line is terminated at a load impedance 200 + j240 V. Find I and s.
A: Reflection Coefficient =(Zl-Z0)/(Zl+Z0) Zl Load Impedance Zo Characteristics Impedance VSWR…
Q: The transmission line has the following data weight of the conductor = 6.5 kg/m, Tension in the…
A: For the given sag condition need to find the distance between the towers
Q: A short transmission line has sending end voltage (13815+250j) and the receiving end voltage 13kV.…
A: Given: Receiving end Voltage= 13000+0j V Sending End Voltage=13815+250j
Q: We say a transmission line is matched when: a) ZĻ=Zo b) Z_=vZo c) ZL=Zo/2 d) Z, =2Z.
A: For a transmission line, two of the most common parameters under consideration are: 1. The…
Q: A lossless transmission line of I = 0.35 A of characteristic impedance 100 2, terminated by input…
A: The solution can be achieved as follows.
Q: A) For the certain lossless reciprocal networks with information of [ A-D=3=4) 1) Evaluate the…
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Q: Q3) Design a three-section binomial transformer to match a 40N load to al502 transmission line, and…
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Q: 3. The impedance which is constant at any point on the transmission line is * ZL. Zo. None of them…
A: We need to select correct option for given line .
Q: Q4: Lossless transmission line of 0.25 having Z. ZL = 40 + j 30 . Find the following numerically…
A: We need to find out input impedance and reflection coefficient and standing wave ratio .
Q: Q4: Lossless transmission line of 0.25 having Zo = 100 2 terminated by load impedan = 40 +j 30 2.…
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Q: 1/10 0% Answer the questi the below image. A short 3-0 transmission line with an impedance of (5+j…
A: It is given that:
Q: Find the shortest lengths for short circuited line of 75 to give the following input impedances: Z=…
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Q: (a) The input impedance Zm (b) The sending-end current I and voltage Vin (c) The propagation…
A: Please find your answer below in step 2
Q: The total series impedance of a 350 km long transmission line is 14 + j105 ohms. The total shunt…
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Q: If a transmission line of characteristic impedance 50 N is terminated with a load impedance of 150…
A: Given information: The characteristic impedance of the transmission line is Z0=50 Ω The load…
Q: If the maximum and minimum voltages on a transmission line are 4 V and 2 V, respectively, for a…
A: Given, Maximum voltage on a transmission line is Vmax = 4 volts Minimum voltage on a transmission…
Q: SAMPLE 3. Determine the sending end voltage, V, of the given nominal-T transmission line. Ans: UNIVE…
A: This problem is from power system. Please look for solution below.
Q: If a transmission line of characteristic impedance 50 Q is terminated with a * :load impedance of…
A: The characteristic impedance of transmission lineZ0=50 ΩLoad impedance ZL=150 Ω
Q: 8. A transmission line has a characteristic impedance of 500 and a resistanc of 0.1 02/m. If the…
A: In this question we will find attenuation constant for distortionless transmission line....
Q: A medium transmission line has a total series impedance of Z = (4 + j12) Ω and a shunt admittance…
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Q: 12-10. Determine the SWR for a 50-02 transmission line that is terminated in a load resistan ZL = 75…
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Q: PRACTICE EXERCISE 11.3 = 15/0° The transmission line shown in Figure 11.9 is 40 m long and has V, Z,…
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Q: Lossless 300 n Z, = 300 2 Va :300 60 cos (2r10°r)v ( V= 2,5 x 10° m/s 2 m Find input impedance Zin…
A: The wave is function of space and time. The EM wave is formed when electric field is in contact with…
Q: The ABCD constants of a 3-phase transmission line are A = D = 0.841° B= 170Z85° C = 0.002Z90.4° mho…
A: In this question, choose the correct option Find the Receiving end voltage VR ? We know Vs =…
Q: Theoretical Impedance Admittance Transmission Parameters Parameters Parameters yı1 A Z12 y12 В y22 D
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Q: A 500-kV 60-Hz three phase transmission line is 351 km long. The series impedance is z=0.06+j0.4 N…
A: Given : z=0.06+j0.4 per phase per km y=j5×10-6 siemens per phase per km Transmission line 351 km…
Q: 4. The characteristic impedance of a transmission line with impedance and admittance of 16 and 9…
A: In this question, We need to choose the correct options What is characteristics impedance Zc?
Q: Q5: A lossless transmission line is terminated with (60+j30)Q load. The input impedance is…
A: In this question, Lossless transmission line Load impedance ZL = 60+j30 ohm Input impedance Zi =…
Q: The characteristic impedance Zo of a lossless transmission line is 50 ohms; the inductance L = 1…
A: Given, Characteristics impedance of lossless transmission line, Zo=50 Ω Inductance, L=1 μHm…
Q: A lossless transmission line of length 50 cm with L = 10 uH/m, C = 40 pF/m is oper- ated at 30 MHz.…
A: The wave is function of space and time. The EM wave is formed when electric field is in contact…
Q: p03 + jo.o05 N/km and shunt admittance of 2.93 x 10-6 S/km. It delivers 350 MVA 169 kV, with 0.95…
A: Since you have asked multiple questions in a single request, we will be answering only the first…
Q: Ossless transmission line has a characteristic impedance of Zo=4012, load reflection coefficient is…
A: Reflection coefficient of lossless line given by a formula T = (ZL- Zo)/(ZL+Zo) Given Zo = 40 ohm,…
Q: 1)The sending-end current and receiving-end current in a given transmission line are not equal b.…
A: “Since you have asked multiple questions, we will solve the first question for you. If you want any…
Q: 300 2 60 V Z, = 300 2 (peak) Lossless 150 n -0.8A Find the average power deliyerd to load ZL
A: The wave is function of space and time. The EM wave is formed when electric field is in contact with…
Q: Q.30: For the two-port electric network shown in figure beside, calculate the maximum load power?…
A: Draw the circuit diagram again and show all the currents and the voltages,
Q: Question 1 A medium transmission line has a total series impedance of Z= (4 + j12) N and a shunt…
A: we need to find out A,B,C,D parameters.
Q: b. A transmission line of characteristic impedance 60 2 is terminated by antenna of impedance 48-j54…
A: Load impedanceZL=48-j50Ω as an antenna will act as loadCharacteristic impedance Zo=60Ωi Voltage…
Q: Q2: Design open-circuit parallel single stub near to the load to match load impedance of ZL = 80 +j…
A: Here is your answer! I hope this will help you.
Q: Determine the input impedance of a short circuited 500 coaxial line with ß = 8.5rad/m and (d)λ/8.…
A: Given data: Z0=50 Ω
Q: 17.) A single-circuit three-phase transposed transmission Iine is composed of four bundled ACSR…
A: A single circuit three-phased transposed transmission line as seen in the figure is composed of four…
Q: Shunt capacitors are installed at the receiving end to improve the line performance of a…
A: Determine the receiving total real power when the sending end voltage is 220 kV.
Q: For a T.L. of Zo=50 Ohm, terminated with ZL= 100 Ohm, the value of the VSWR is: O 5 O 2 O 3
A: The solution can be achieved as follows.
Q: lossless transmission line has a chara of Zo=302, load reflection coefficient load impedance? 90 120…
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Q: ) To match a load of ZL = 30 (2), to a transmission line with characteristic (f) ( impedance Zo = 75…
A: According to the question, to match a load line, we need to find the distance of the quarter-wave…
Q: Calculate the power exponent where the received power at the first 100 m is 0 dBm and the received…
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Q: 5. The propagation constant of a transmission line with impedance and admittance of 9 and 16…
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- 0.35λ long with characteristic impedance Z0= 50 ohmstransmission line is combined with ZL=10+j25 load. in the source andShow the reflection coefficient at the input using the Smith chart. Zin=? Γ=? SWR=?6. A 50Ω transmission line uses an insulating material with ǫr = 3. When terminated in anopen circuit, how long the line has to be for its input impedance to be a 30µH inductanceat 200MHz?Calculate at 6 MHz the position and length of a shorted shunt stub that will match the load impedance of 100 + j80 Ohms to a line with a characteristic impedance of 75 Ohms.
- Match a load of ZL=120+80j Ω to a Z0=100 Ω transmission line using a shunt single stub if the stub is short circuited..Transmission line with a load Zl = 100 + i80 ohm with characteristic impedance of Z0 = 5 ohm is designed. The transmission line operates at 100 MHz, where is matched with a shunt single- stub tuner. a)Calculate the stub positions. b)Calculate the stub length where open circuit stub is used. c) Calculate the stub length where short circuit stub is used.The ABCD constants of a 3-phase transmission line are A = D = 0.8∠1°, B = 170∠85° Ω , C = 0.002∠90.4°. The sending end voltage is 400 kV. The receiving end voltage under no load condition is?
- The line-end phase-to-phase voltage of a short three-phase 50Hz transmission line is Ur=31.5 kV. Since the total series impedance is Z=7.5+j12 ohms and the power drawn from the end of the line is P=15MW under a cosa=0.7 forward power factor, calculate the active power and cosa value from the beginning of the line.(a) Prove that a maximum power is transferred from a voltage source with an internal impedance Zg to a load impedance ZL over a losslesstransmission line of length (l) when the input impedance Zi = Z g* .(b) Prove the efficiency at the maximum power transfer = 0.5 . [Need an equivalent circuit diagram]Use the Y-Y circuit shown below. What is the phase angle of the line voltage (Vab) at the load end? and solve for the phase current.
- A loss less transmission line with reflection coefficient 3 ⁄ 13 at load end is terminated by a load80Ω.a) Find the characteristic impedance.b) Find the reflection coefficient at a distance λ/8 from the load end using the answer in part (a)and reflection coefficient mentioned abovec) Find the input impedance at a distance λ/8 from the load end using the answer in part (b)help me calculate the Rn, In or Isc, and current at Zc using NORTON’S THEOREMEr=Es=1.0 pu in both cases and ZLN= (1∠85◦) in the first case and ZLN= (1∠90◦)in the second case. Comment particularly on how the presence of line resistance affect maximum injectable power at sending end and the maximum receivable power at the opposite end?