Figure 1 shows a well-known circuit configuration with the bypassed source resistor using an n-channel D-MOSFET with yos = 20µS. (iv) Calculate transconductance, gm and rd. (v) Calculate the input, Zi and output impedance, Zo for the circuit. (vi) Prove that the equation for the no-load Gain, AvNL, for the circuit is as follows: AvNL = -gm (RD X rd / RD + rd) (vii) Calculate the no-load gain AVNL. (viii) Find the value of VoNL if Vi = 30 mV.
Figure 1 shows a well-known circuit configuration with the bypassed source resistor using an n-channel D-MOSFET with yos = 20µS. (iv) Calculate transconductance, gm and rd. (v) Calculate the input, Zi and output impedance, Zo for the circuit. (vi) Prove that the equation for the no-load Gain, AvNL, for the circuit is as follows: AvNL = -gm (RD X rd / RD + rd) (vii) Calculate the no-load gain AVNL. (viii) Find the value of VoNL if Vi = 30 mV.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Figure 1 shows a well-known circuit configuration with the bypassed source resistor using an n-channel D-MOSFET with yos = 20µS.
(iv) Calculate transconductance, gm and rd.
(v) Calculate the input, Zi and output impedance, Zo for the circuit.
(vi) Prove that the equation for the no-load Gain, AvNL, for the circuit is as follows:
AvNL = -gm (RD X rd / RD + rd)
(vii) Calculate the no-load gain AVNL.
(viii) Find the value of VoNL if Vi = 30 mV.
Transcribed Image Text:V.
1.8 k2
10 M2
Mwo +22 V
IDss = 12 mA
Vp = -3.5 V
V; -
Z;
50 Ω
50 2
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