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Calculate the bias point (Ip, VGs, VDs) of M1 in the circuits shown in Fig. 3 and verify its operating region. Assume: VDp = 1.8 V; W /L = 10/0.18; µn Coz = 200 µA/V²; Vrh = 0.4 V; A = 0; 10 kN; Rg2 %3D Rp 1 kN; Rs = 200 N; RG1 20 kN; I = 0.5 mA. %3D

Calculate the bias point (Ip, VGs, VDs) of M1 in the circuits shown in Fig. 3 and verify its operating region. Assume: VDp = 1.8 V; W /L = 10/0.18; µn Coz = 200 µA/V²; Vrh = 0.4 V; A = 0; 10 kN; Rg2 %3D Rp 1 kN; Rs = 200 N; RG1 20 kN; I = 0.5 mA. %3D

Introductory Circuit Analysis (13th Edition)
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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Calculate the bias point (Ip, VGs, VDs) of M1 in the circuits shown in Fig. 3 and verify its operating region. Assume: Vpp = 1.8 V; W /L = 10/0.18; µ„Con = 200 µA/V²;Vrh = 0.4 V;1 = 0; Rp = 1 kn; Rs = 200 N; RG1 = 10 kN; Rc2 = 20 kN; I = 0.5 mA. VDD VDD RD RG1 RD RG1 M1 M1 RG2 RG2 Rs (a) (b) Figure 3: Circuit schematics. Wr Wr
Transcribed Image Text:Calculate the bias point (Ip, VGs, VDs) of M1 in the circuits shown in Fig. 3 and verify its operating region. Assume: Vpp = 1.8 V; W /L = 10/0.18; µ„Con = 200 µA/V²;Vrh = 0.4 V;1 = 0; Rp = 1 kn; Rs = 200 N; RG1 = 10 kN; Rc2 = 20 kN; I = 0.5 mA. VDD VDD RD RG1 RD RG1 M1 M1 RG2 RG2 Rs (a) (b) Figure 3: Circuit schematics. Wr Wr
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