附註:Includes bibliographical references.
Ch. 1. Introduction -- Ch. 2. Specification and Analysis of Nonlinear Circuits -- 2.1. Linearity Specifications -- 2.2. Volterra Series -- 2.3. Phasor Method -- Ch. 3. Biasing and Opamp Modeling for Low Distortion -- 3.1. Biasing for Robust Linearity Performance -- 3.2. Opamp Modeling for Nonlinear Analysis -- Ch. 4. Nonlinear Analyzes of Feedback Miller Opamp -- 4.1. The Non-Inverting Configuration -- 4.2. The Inverting Configuration -- Ch. 5. Opamp Circuits with High Linearity Performance -- 5.1. Measurement System -- 5.2. A 1.8V CMOS Opamp with -77.5dB HD2 and HD3 at 80MHz -- 5.3. A 3.3V CMOS Opamp with -80dB HD3 at 80 MHz -- 5.4. A 3.3V CMOS Current Opamp with -63dB HD3 at 100MHz -- 5.5. A 3.3V CMOS Unity-Gain Opamp with -80dB HD3 at 10MHz -- Ch. 6. Conclusions and Discussions -- 6.1. Opamp Topologies Versus Linearity -- App. A. Transistor Model -- App. B. Closed Loop Opamp Transfer Functions -- App. C. Open Loop Opamp Transfer Functions.
摘要:"Broadband opamps for multi-channel communication systems place strong demands on linearity performance. When these opamps are integrated in deep sub-micron CMOS technologies, the signal-swing has to occupy a large part of the rather low supply voltage to maintain the signal-to-noise ratio. To obtain opamps with low distortion it is necessary to do a thorough analysis of the nonlinear behaviour of such circuits and this is the main subject of Design Criteria for Low Distortion in Feedback Opamp Circuits." "Design Criteria for Low Distortion in Feedback Opamp Circuits is written for Analog CMOS designers."--Jacket.
