Field Effect Transistors: Operation, Circuit Models, and Applications CHAPTER 11 AC Power Field Effect Transistors: Operation, Circuit Models, and Applications
Classification of field-effect transistors Figure 11.1 Figure 11.1 11-1
The n-channel enhancement MOSFET construction and circuit symbol Figure 11.2 Figure 11.2 11-2
Channel formation in NMOS transistor: (a) With no external gate voltage, the source-substrate and substrate-drain junctions are both reverse biased, and no conduction occurs; (b) when a gate voltage is applied, charge-carrying electrons are drawn between the source and drain regions to form a conducting channel. Figure 11.3 Figure 11.3 11-3
Regions of operation of NMOS transistor Figure 11.4 Figure 11.4 11-4
11-5 Drain characteristic curves for a typical NMOS transistor with VT = 2 V and K = 1.5 mA/V2 Figure 11.5 Figure 11.5 11-5
The n-channel enhancement MOSFET circuit and drain characteristic for Example 11.1 Figure 11.6 Figure 11.6 11-6
The p-channel enhancement-mode field-effect transistor (PMOS) Regions of operation for PMOS transistor Figure 11.9 Figure 11.8 Figure 11.8 Figure 11.8, 11.9 11-7
Typical common-drain and common-source MOSFET amplifiers MOSFET transconductance parameter Figure 11.11 Figure 11.10 Figure 11.10, 11.11 11-8
MOSFET small-signal model Figure 11.13 Figure 11.13 11-9
CMOS inverter approximate by ideal switches: (a) When vin is “high,” vout is tied to ground; (b) when vin is “low,” vout is tied to VDD Figure 11.14 Figure 11.15 Figure 11.14, 11.15 11-10
Figure 11.18 Figure 11.18 11-11
Figure 11.19 Figure 11.20 Figure 11.19, 11.20
Symbol for bilateral FET analog gate MOSFET analog switch Symbol for bilateral FET analog gate Figure 11.22 Figure 11.23 Figure 11.22, 11.23 11-12