Ch 3 section 4 Smith chart part 3

Ch 3 section 4 Smith chart part 3 - (Am 055 $6. To...

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Unformatted text preview: (Am 055 $6. To flzué/o/J 075/;4f )n/a 90“} g/Y 04/24va over a MMjC 07p Aéjwffloic; 7gf dl‘FfC/Cn'lf Comb;hd7’7§n5 01C /flfl4/ZC/ C/‘fcm'f lad/amu/wS. (/55/‘1/1, M417») DESIGN/N6) mtmm/c, { A/(zWKS AND DeVe’Lo/M/é €82 CKT" flaaas Zo/g R: Figure 3-13 Admittance response of parallel RL circuit for (0L S 0) 3 my at constant conductances g = 0.3, 0.5, 0.7, and 1. 3.4.2 Parallel Conncm’wm 67“ Ram! G Zo/g R WMkfi *JZWLC‘ gut): 3 +J_Ea Z"; j C: Figure 3-14 Admittance response of parallel RC circuit for 03L S a) s coU at constant conductances g = 0.3, 0.5, 0.7, and 1. l Samar CON/U €677 0N Figure 3-15 Impedance response of series RL circuit for 03L S (0 3 my and constant resistances r= 0.3, 0.5, 0.7, and 1. [magma/u 3.4.4 gag/gs 0F flaw C Figure 3-16 Impedance response of series RC circuit for 03L 3 w 3 (DH at constant resistances r= 0.3, 0.5, 0.7, and 1. C = / fl: 2029042. :Ww:L/Y\J T -type network Transistor mput CL -> C7,- 505¢ “Eh/77294. Figure 3-17 Tnetwork connected to the base-emitter input impedance of a bipolar transistor. QSSu/U- 20: SO 11 2m (2) a? 6//% PM D CD Paul) a (SHUNT R?) % ._, E; [De :2 2060 C "— SOflif)ZX/oqfl9lxz K At: /.2 @244g 3: arwrb ~.= /.é+OL1.L / POI/UT B. C2) “59 M” 8 TD ledb ‘2,5 2 05:70.3 @ Smile“; Con/m;ch OF Ll germ-ES Amy/~10 F 2 OH carve bag Xp. x 3 wL__(2/x/o 4.8 :li/ M 20 ' so ’93 [PD/UTC; .42: O 2.39 M77" @ Zc -. u C D CONMéCDoM L @ 5HU/U7’ C0/l/NEC770/U POIMT D LJITH- 27‘ 2. RIES 51? 6 Po/MT 1:” n 1.7 in”: ’ 9.0 an... Figure 3-19 CAD simulation of the normalized input impedance Zin for the network depicted in Figure 3- 17 over the entire frequency range 500 MHz 5 fs 4 GHz. As £900 01?: c SHD/zrs @637 OF CKT‘ 2. n+0 x ~+°0 UM IA! ...
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Ch 3 section 4 Smith chart part 3 - (Am 055 $6. To...

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