4.0 mAr Ups(1) +10 V 6.7 V Vas = 4.5 V Rp3.3 k2 3.0 mA Uds (1) Us (1) Vcs = 4.0 V 4.8 V %3D ip 2.7 V 2.0 mA- Vas = 3.5 V %3D UGs (1) Ups 4.00 V Q-point Vas = 3.0 V Ugs UGS 1.0 mA Vas = 2.5 V Ves = 2.0 V 3.50 V VGs 3.5 V 3.00 V OV 4 V 10 V 12 V Drain-source voltage (a) (b) Figure 13.2 (a) A MOSFET common-source amplifier; (b) Q-point, load line, and signals for the circuit of Fig. 13.2(a). Drain current
4.0 mAr Ups(1) +10 V 6.7 V Vas = 4.5 V Rp3.3 k2 3.0 mA Uds (1) Us (1) Vcs = 4.0 V 4.8 V %3D ip 2.7 V 2.0 mA- Vas = 3.5 V %3D UGs (1) Ups 4.00 V Q-point Vas = 3.0 V Ugs UGS 1.0 mA Vas = 2.5 V Ves = 2.0 V 3.50 V VGs 3.5 V 3.00 V OV 4 V 10 V 12 V Drain-source voltage (a) (b) Figure 13.2 (a) A MOSFET common-source amplifier; (b) Q-point, load line, and signals for the circuit of Fig. 13.2(a). Drain current
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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(a) Does the MOSFET as shown remain in the active region of operation during the full-output signal swing? (b) If the dc drain current of the MOSFET in the active region is given by ID = (Kn/2)(VGS − VTN)2, what are the values of the parameter Kn and threshold voltage VTN for the transistor shown? (c) Express the amplifier voltage given in dB.
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