please get input impedance Zin by using a smith chart.
please get input impedance Zin by using a smith chart. R=502 Zo 50 /-0.22 Open end...
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ZLI V. Zo Z12 L. Design a shunt stub tuner using a smith chart to match a load of ZLI-100+j0 ohms to a source voltage of impedance Zg- Z,-Zo 50 ohms. Consider the characteristic impedance of all the lines to be Z.-50 ohms. Use a short circuit stub i.e Zu2-0. Determine the values for 'd' and 'L' i.e. [d , L The Complete Smith Chart Black Magic Design
ossless transmission line is terminated with a short circuit at the far end as shown in the figure below. Calculate the input impedance Zin a) at dc; 2) A l b) when the line is # long; when the line is 4 long; c) d) when the line is long. Based on the previous results, plot the imaginary part of the input impedance as a function of e) the electrical length of the line. -0 Zo Zin
ossless transmission line...
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Problem #4) A 72em long, lossy transmission line with the following characteristics: Zo 502, y0.3+ j 10.74 (Np/m and rad/m respectively) is terminated with a load ZR (15-j40) when supplied by a 400MHZ source. Determine the value of the input impedance, Zin, of the line (in rectangular form). You must use and completely LABEL the Smith Chart on the following page when solving for the value of Zn Zin ZR=(15-j40)Q Zo 72cm Zin
A lassless transmission line with characteristic impedance Zo - 50 R and length l = 0.42 is terminated into a load Z2 = 100+j401 (a) At what distance from the load is the input impedance real? (4 points) (b) If a quarter-wave transformer is to be used to match the load to the transmission line, what will be its characteristic impedance ? (4 points)
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If the input impedance is defined as Zin = Vs/s, find the input impedance of the op amp circuit given below when R1 = 20 kN, R2 = 20 kn, C1 = 10 nF, C2 = 20 nF, and w = 5000 rad/s. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees C R R2 w w -oV V C...
If my my Zo is 50 ohms, and my l is 0.12m, could you please show
me how to calculate c. I believe the answer is Zin = 1.78 - j0.75.
Please show all work Thanks!
A loss-free transmission line of characteristic impedance Zo and length / is connected to a load Zl, which consists of the following elements connected in series: Rs = Zo, Ls = 1.0 nH, and Cs = 1.8 pF. The frequency is 3 GHz and...
Using the ZY-Smith Chart, find the input impedance of the following work at 2 GHz 3.20 net Z Ly 3.98 nH 1.68 pF L 25 S2 3.98 nH 1.59 pF| 199 nH What is the input impedance of this network at 1 GHz?
Using the ZY-Smith Chart, find the input impedance of the following work at 2 GHz 3.20 net Z Ly 3.98 nH 1.68 pF L 25 S2 3.98 nH 1.59 pF| 199 nH What is the input impedance...
3.20 Using the ZY-Smith Chart, find the input impedance of the following net- work at 2 GHz. ム LTD 3.98 nFH 1.68 pF C 25 Ω 3.98 nH | 1.59 pF 1.99 nH What is the input impedance of this network at 1 GHz?
3.20 Using the ZY-Smith Chart, find the input impedance of the following net- work at 2 GHz. ム LTD 3.98 nFH 1.68 pF C 25 Ω 3.98 nH | 1.59 pF 1.99 nH What is the...
A 2.5 meter long section of Zo=50 12 lossless coaxial transmission line is connected to a source with vg(t) = 10 sin(611 10't + 60°) (V) and Zg=150 12. If the line, which uses insulating material with a relative permittivity of &r=4, is terminated in a load ZŁ=(100 – j 50) (2, determine: (a) Wavelength a on the line. (b) The reflection coefficient I at the load. (c) The input impedance at the source. (d) The voltage phasor V; at...
Really appreciate any help. Thank you in advance! 1. Use the Smith chart to find the reflection coefficient corresponding to the load impedance ZL =30−j80Ω. 2. Use the Smith chart to find the impedance corresponding to a reflection coefficient of Γ = ◦ 0.5̸ −45. 3. A transmission line is terminated with a load ZL = 80 + j120 Ω. Use the Smith chart to find (a) the load reflection coefficient, (b) the standing wave ratio, (c) the input impedance...