Analog Integrated Circuits
暂无分享,去创建一个
1 Models for Integrated-Circuit Devices.- 1.1 Bipolar Junction Transistor.- Ebers-Moll Static Model.- Ebers-Moll Dynamic Model.- Base-Width Modulation.- Small-Signal Models of Bipolar Junction Transistors.- Parasitic Elements in Integrated-Circuit Bipolar Transistors.- Transistor Cutoff Frequency.- 1.2 Junction Diode.- 1.3 Junction Field-Effect Transistor.- Device Characteristics.- Large-Signal Model.- Large-Signal Dynamic Model of the JFET.- Small-Signal Model of the JFET.- Parasitic Elements in Integrated-Circuit JFETs.- Transistor Cutoff Frequency.- 1.4 Metal-Oxide-Semiconductor Field-Effect Transistor.- Device Characteristics.- MOSFET Capacitance.- Small-Signal Model of the MOSFET.- Transistor Cutoff Frequency.- Problems.- References.- 2 Analog Integrated-Circuit Blocks.- 2.1 Current Sources.- Basic Current Mirror.- Base-Current Compensated Current Mirror.- Cascode Current Source.- Wilson Current Source.- Resistor-Ratioed Current Source.- Widlar Current Source.- 2.2 DC Level-Shift Stages.- VBE Voltage Shift Stages.- Cascade Emitter Follower Level-Shift Stage.- Composite npn-pnp Level-Shift Stage.- MOS Level-Shift Stages.- 2.3 Single-Transistor Gain Stages.- Common-Emitter Gain Stages.- Common-Emitter Gain Stage with Resistive Load.- Common-Emitter Gain Stage with Active Load.- Common-Source Gain Stage with Resistive Load.- Common-Source Gain Stage with Active Load.- Common-Collector (Emitter Follower) Gain Stage.- Emitter Follower Stage with Active Load.- Common-Drain (Source Follower) Gain Stage.- Source Follower with Active Load.- Common-Base Gain Stages.- Common-Base Gain Stage with Resistive Load.- Common-Base Stage with Active Load.- Common-Gate Gain Stage.- 2.4 Two-Transistor Gain Stages.- Cascode Configuration.- Cascade Configuration.- Differential-Pair Configuration.- 2.5 Output Stages.- Emitter Follower and Source Follower Output Stages.- Complementary Output Stages.- Problems.- References.- 3 Operational Amplifiers.- 3.1 Voltage-Feedback Amplifiers.- Single-Stage Op-Amp.- Two-Stage Op-Amp.- 3.2 Current-Feedback Amplifiers.- Transimpedance.- Slew Rate.- 3.3 Current-Differencing Amplifers.- Inverting Amplifier.- 3.4 Transconductance Amplifiers.- Linearization.- Applications.- CMOS Transconductance Amplifier.- Problems.- References.- 4 Feedback and Compensation of Feedback Amplifiers.- 4.1 Basic Feedback Concepts.- Gain Stabilization.- Reduction in Distortion.- Increased Bandwidth.- 4.2 Feedback Circuit Example.- Input Resistance.- Output Resistance.- 4.3 Feedback Configurations.- Series Voltage.- Shunt Voltage.- Series Current.- Shunt Current.- 4.4 Dual-Loop Feedback.- Series Current-Shunt Voltage.- Series Voltage-Shunt Current.- 4.5 Stability of Feedback Amplifiers.- Gain and Phase Relationship.- 4.6 Compensation of Feedback Amplifiers.- Compensation Methods.- Problems.- References.- 5 Translinear Circuits.- 5.1 Translinear Circuit Classes.- Transconductance Linear with Current.- Transconductance Linear with Voltage.- 5.2 Analog Functions with Translinear Circuits.- Vector Magnitude.- Two-Quadrant Squarer.- Absolute Value.- Analog Multipliers.- 5.3 Trigonometric Functions with Translinear Circuits.- 5.4 Gilbert Gain Cell.- Problems.- References.
[1] G. Wilson. A monolithic junction FET-n-p-n operational amplifier , 1968 .
[2] J. Mavor. Bipolar and MOS Analog Integrated Circuit Design , 1985 .
[3] A. S. Grove. Physics and Technology of Semiconductor Devices , 1967 .
[4] R. Widlar,et al. Some Circuit Design Techniques for Linear Integrated Circuits , 1965 .
[5] Tomohiko Ito,et al. A single-power-supply 10-b video BiCMOS sample-and-hold IC , 1990 .