13) The fixed-bias configuration of Fig. G had an operating point defined by VGSQ = -2 V and IDQ = 5.625 mA, with IDSS = 10 mA and VP = -8 V. The network is applied signal Vi. The value of y os is provided as 40 mS. %3D Calculate Zo. Determine the voltage gain A v. Determine A vignoring the effects of rd. 20 V Rp 2 k2 C2 D Ipss 10 mA Vp=-8 V G RG 1 ΜΩ Vi Z 2 V + FIG. G Fig. 14 Fixed-bias configuration
13) The fixed-bias configuration of Fig. G had an operating point defined by VGSQ = -2 V and IDQ = 5.625 mA, with IDSS = 10 mA and VP = -8 V. The network is applied signal Vi. The value of y os is provided as 40 mS. %3D Calculate Zo. Determine the voltage gain A v. Determine A vignoring the effects of rd. 20 V Rp 2 k2 C2 D Ipss 10 mA Vp=-8 V G RG 1 ΜΩ Vi Z 2 V + FIG. G Fig. 14 Fixed-bias configuration
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Transcribed Image Text:13) The fixed-bias configuration of Fig. G had an operating point defined by VGSQ = -2 V and
IDQ = 5.625 mA, with Idss = 10 mA and Vp= -8 V. The network is applied signal Vi. The
value of y os is provided as 40 mS.
Calculate Zo.
Determine the voltage gain A v.
Determine A vignoring the effects of r d.
20 V
Rp
2 k2
C2
D
Ipss = 10 mA
Vp=-8 V
G
RG
Vo
Z,
1 MQ
2 V
+
FIG. G
Fig. 14 Fixed-bias configuration
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