General Information
- Introduction
- Technology
- Modeling
- Basic Circuits
- Operational Amplifiers
- Specialized Operational Amplifiers
- Comparators
- Digital-analog & analog-digital converters
Introduction
- Introduction
- What is Analog Design?
- Skillset for Analog IC Circuit Design
- Trends in Analog IC Design
- Notation, Terminology and Symbols
Technology
- Submicron CMOS Technology
- Deep Submicron CMOS Technology
- Ultra-Deep Submicron CMOS and BiCMOS Technology
- PN Junctions and CMOS Transistors
- Capacitors
- Resistors and Inductors
- Latachup and ESD
Modeling
- Large Signal MOSFET Model
- MOSFET Capacitor Model and Large Signal Model Dependence
- Small SIgnal Models, Noise, Passive Components Models
- Component Matching
- Computer Models and Extraction of the Simple Large Signal Model
Basic Circuits
- MOS Switch
- Current Sinks and Sources
- Current Mirrors and Simple References
- Bandgap References
- Inverting Amplifier
- Differential Amplifier
- Low Input Resistance Amplifiers - CG, Cascode and Current Amplifiers
- Output Amplifers
Operational Amplifiers
- Compensation of Op Amps
- Two-stage Op Amp Design
- Cascode Op Amps
- Simulation and Measurement of Ops
Specialized Operational Amplifiers
- Buffered Amplifiers
- High-Speed Op Amps
- Differential-in, Differential-out Op Amps
- Low Noise and Low Power Op Amps
- Low Voltage Op Amps
Comparators
- Open-loop Comparators
- Improved Open-loop Comparators and Latches
- High-speed comparators
Digital-analog & analog-digital converters
- Characterization of DAC's and Current Scaling DAC's
- Voltage and Charge Scaling and Serial DAC's, Improved Resolution
- Characterization of ADC'samd Sample and Hold Circuits
- Moderate Speed Nyquist ADC's
- High Speed Nyquist ADC's
- Oversampling ADC's - Part I
- Oversampling ADC's - Part II