Slide 1 - Salisbury University
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CHAPTER 5
MOS Field-Effect Transistors
(MOSFETs)
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Figure 5.2 The enhancement-type NMOS transistor with a positive voltage applied to the gate. An n channel is induced at the top of the
substrate beneath the gate.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Table 5.1 Regions of Operation of the Enhancement NMOS Transistor
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Figure 5.15 Large-signal equivalent-circuit model of an n-channel MOSFET operating in the saturation
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Table 5.2 Regions of Operation of the Enhancement PMOS Transistor
Microelectronic Circuits, Sixth Edition
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Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Figure 5.28 Biasing the MOSFET amplifier at a point Q located on the segment AB of the VTC.
Microelectronic Circuits, Sixth Edition
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Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
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Copyright © 2010 by Oxford University Press, Inc.
Figure 5.31 Graphical construction to determine the voltage transfer characteristic of the amplifier in Fig. 5.29(a).
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Figure 5.34 Conceptual circuit utilized to study the operation of the MOSFET as a small-signal amplifier.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Figure 5.35 Small-signal operation of the MOSFET amplifier.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Table 5.3 Small-Signal Equivalent-Circuit Models for the MOSFET
Microelectronic Circuits, Sixth Edition
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Copyright © 2010 by Oxford University Press, Inc.
Figure 5.43 The three basic MOSFET amplifier configurations.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Microelectronic Circuits, Sixth Edition
Sedra/Smith
Copyright © 2010 by Oxford University Press, Inc.
Figure 5.46 Performing the analysis directly on the circuit diagram with the MOSFET model used implicitly.
Microelectronic Circuits, Sixth Edition
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Copyright © 2010 by Oxford University Press, Inc.
Figure 5.61 A sketch of the frequency response of a CS amplifier delineating the three frequency bands of interest.
Microelectronic Circuits, Sixth Edition
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Copyright © 2010 by Oxford University Press, Inc.
Figure P5.49
Microelectronic Circuits, Sixth Edition
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Figure P5.50
Microelectronic Circuits, Sixth Edition
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