KTN. LOSS BL RFL COFFF, Eerl SWR des 0.45 Cast▬▬▬++++ RFL. COEFF, P -150 0.05 150 ++++++00-80 10040 20 0 0.0 ORIGIN 0.45

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Ktn Loss Bl Rfl Cofff Eerl Swr Des 0 45 Cast Rfl Coeff P 150 0 05 150 00 80 10040 20 0 0 0 Origin 0 45 1 (501.44 KiB) Viewed 16 times

Ktn Loss Bl Rfl Cofff Eerl Swr Des 0 45 Cast Rfl Coeff P 150 0 05 150 00 80 10040 20 0 0 0 Origin 0 45 2 (64.19 KiB) Viewed 16 times

KTN. LOSS BL RFL COFFF, Eerl SWR des 0.45 Cast▬▬▬++++ RFL. COEFF, P -150 0.05 150 ++++++00-80 10040 20 0 0.0 ORIGIN 0.45 900, 500 HEMA++ B3 0.06 ET 0.1 & 044 OF 0.44 140 10 +++ L 0.07 40 30 20 0.42 ++++++++++++|||||||||||||||||||||| 120 0.43 130 TUBL 0.2 P - ▬▬ ACTANCE COMPONENT (+X/Zo), OR CAPACITIVE SUSCEPTANCE (08/Yo Tyydyke 0.08 + 200 15 ست 109 08 07 06 0.5 1.. 0.9 0.8 0.7 TTTTTT let CAPACITIVE REACTANCE COMPONENTUK/Zo), OR INDUCTIVE SUSCEPTAN 0.3 LAL sy. 05%.yay ++||||||Th 0.08 0.42 The Complete Smith Chart Black Magic Design 0.41 RESISTANCE COMPONENT (R/20), OR CONDUCTANCE COMPONENT (C/Yo 102 $ 18 +++++++++++++++++++ 600 0.6 0.4 10 0.5 0.1 0.41 0.5 04 110 04 $ 0.6 -110 0.11 0.1 YO 0.39 le 100 0.1 0,3 0.7 2 18 16 14 8 6 54 3 7 8 9 10 12 14 +++++4² +5+44 0.2 0.05 001- 110 18 600 0.12 0.38 02 0.8 0.12 0.38 16 03 0.01 0.1 9 20 0.9 4². 20 10.0 10.4 $2 12.11.1, 15 2 1 11 20 300 ali 01 00 0.13 106 CENTER A 100 10.6 RADIALLY SCALED PARAMETERS 0.13 90 0.37 10.8 NO OR ty 1.1 0.99 1.1. 0.14 0.36 0.16 TOWARD LOAD- 10WARD LOAD 0.36 015 0.35 12 70 0.15 af 1.1 0.1 0.2 ttttttttt 12 1.3 SE O 1.3 60 0.33 ++++||||||▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬ 0.16 1.4 034 Vike 0.16 CO 60 1.5 0.17 0.33 EL 9 phiphidighed 1.2 1.3 1.4 16 18 2 04 06 08 1 1.5 1.4 14 15 16 17 18 19 2 0.95 09 08 0.7 06 Le 410 CCO 1.6 50 29 # ++++++++†††††††††††▬▬▬▬▬▬▬▬▬▬▬▬++++ 09 of 0.18 0.18 0.32 2.5 0.31 0.5 40 1.7 & 677 13. A 40 0.19 0.19 04 <-TOWARD GENERATOR 0.3 S 3 1.8 30/40 02 Chhapp 4 5 10 20- 10 15 02 3.0 +jpkpkpkkkpkt 4 5 10 03 02 01 0 1.9 ATTEN [48] S.W. LOSS COEFF TRANSM COEFF, For RPL LOSS [48] S.W. PEAK (CONST.P) TRANSM COEFF, P
Q6B. A T-line with characteristic impedance Zo (200 +j130) Ohm as shown below. Zin l= 0.2 X Zo=1001 8=-l Figure 8: for Q6B. S=0 Zu = 100 Ohm is terminated with load Zu=200 +j130 (2) Use Smith chart to find: (a) Voltage reflection coefficient I (a) Standing wave ratio S (b) Maximum and minimum impedances ZMAX and ZMIN along the T-line (c) Input impedance Zin