CMOS Analog Circuit Design

1.1 ANALOG INTEGRATED CIRCUIT DESIGN 1.2 NOTATION, SYMBOLOGY AND TERMINOLOGY 1.3 ANALOG SIGNAL PROCESSING 1.4 EXAMPLE OF ANALOG VLSI MIXED-SIGNAL CIRCUIT DESIGN 2.1 BASIC MOS SEMICONDUCTOR FABRICATION PROCESSES 2.2 THE PN JUNCTION 2.3 THE MOS TRANSISTOR 2.4 PASSIVE COMPONENTS 2.5 OTHER CONSIDERATIONS OF CMOS TECHNOLOGY 3.1 SIMPLE MOS LARGE-SIGNAL MODEL (SPICE LEVEL 1) 3.2 OTHER MOS LARGE-SIGNAL MODEL PARAMETERS 3.3 SMALL-SIGNAL MODEL FOR THE MOS TRANSISTOR 3.4 COMPUTER SIMULATION MODELS 3.5 SUBTHRESHOLD MOS MODEL 3.6 SPICE SIMULATION OF MOS CIRCUITS 4.1 MOS SWITCH 4.2 MOS DIODE/ACTIVE RESISTOR 4.3 CURRENT SINKS AND SOURCES 4.4 CURRENT MIRRORS 4.5 CURRENT AND VOLTAGE REFERENCES 4.6 BANDGAP REFERENCE 5.1 INVERTERS 5.2 DIFFERENTIAL AMPLIFIERS 5.3 CASCODE AMPLIFIERS 5.4* CURRENT AMPLIFIERS 5.5* OUTPUT AMPLIFIERS/BUFFERS 6.1 DESIGN OF CMOS OP AMPS 6.2 COMPENSATION OF OP AMP 6.3 DESIGN OF TWO-STAGE OP AMPS 6.4 POWER-SUPPLY REJECTION RATIO OF TWO-STAGE OP AMPS 6.5 CASCODE OP AMPS 6.6 SIMULATION AND MEASUREMENT OF OP AMPS 6.7 MACROMODELS FOR OP AMPS 7.1 BUFFERED OP AMPS 7.2 HIGH-SPEED/FREQUENCY OP AMPS 7.3 DIFFERENTIAL-OUTPUT OP AMPS 7.4 MICROPOWER OP AMPS 7.5 LOW NOISE OP AMPS 7.6 LOW VOLTAGE OP AMPS 8.1 CHARACTERIZATION OF A COMPARATOR 8.2 TWO-STAGE, OPEN-LOOP COMPARATOR DESIGN 8.3 OTHER OPEN-LOOP COMPARATORS 8.4 IMPROVING THE PERFORMANCE OF OPEN-LOOP COMPARATORS 8.5 DISCRETE-TIME COMPARATORS 8.6 HIGH-SPEED COMPARATORS APPENDIX A CIRCUIT ANALYSIS FOR ANALOG CIRCUIT DESIGN APPENDIX B INTEGRATED CIRCUIT LAYOUT APPENDIX C CMOS DEVICE CHARACTERIZATION APPENDIX D TIME AND FREQUENCY DOMAIN RELATIONSHIP FOR SECOND-ORDER SYSTEMS