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本帖最后由 populbb 于 2014-6-3 17:48 编辑
- MicroCMOS DesignSeries:
Circuits and Electrical Engineering
Published:
September 14, 2011 by CRC Press
Content:
434 Pages | 478 Illustrations
Author(s):
Bang-Sup Song
MicroCMOS Design covers key analog design methodologies with an emphasis on analog systems that can be integrated into systems-on-chip (SoCs). Starting at the transistor level, this book introduces basic concepts in the design of system-level complementary metal-oxide semiconductors (CMOS). It uses practical examples to illustrate circuit construction so that readers can develop an intuitive understanding rather than just assimilate the usual conventional analytical knowledge.
As SoCs become increasingly complex, analog/radio frequency (RF) system designers have to master both system- and transistor-level design aspects. They must understand abstract concepts associated with large components, such as analog-to-digital converters (ADCs) and phase-locked loops (PLLs). To help readers along, this book discusses topics including:
- Amplifier basics & design
- Operational amplifier (Opamp)
- Data converter basics
- Nyquist-rate data converters
- Oversampling data converters
- High-resolution data converters
- PLL basics
- Frequency synthesis and clock recovery
Table of Contents
Amplifier Basics Driving-Point and Transfer Functions Frequency Response Stability Criteria Operational Amplifier (Opamp) in Negative Feedback Phase Margin Transient Response Feedback Amplifier Feedback Effect Left-Half or Right-Half Plane Zero Stability of Feedback Amplifiers
Amplifier Design
Abstract Low-Frequency Model of Transistors Driving-Point Resistances at Low Frequencies Resistance Reflection Rules Three Basic Amplifier Configurations Nine Amplifier Combinations Differential Pair Gain Boosting Biasing Voltage and Current Sources
Operational Amplifier (Opamp)
Small-Signal Model of the Operational Amplifier Opamp Frequency Compensation Phase Margin of Two-Stage Miller-Compensated Opamps Right-Half Plane Zero Cancellation in Two-Stage Opamps Transient Response of Opamp in Feedback Opamp Design Examples Common-Mode Feedback Offset Cancellation Opamp Input Capacitance Opamp Offset Opamp Noise Opamp Common-Mode Rejection
Data Converter Basics
Analog-to-Digital Converter Basics Sample and Hold Flash Analog-to-Digital Converter Comparator ADC Testing Averaging and Interpolation Techniques Low-Voltage Circuit Techniques Digital-to-Analog Converter Basics
Nyquist-Rate Data Converters
Analog-to-Digital Converter Architectures Slope-Type ADC Successive Approximation Register ADC Subranging and Multistep ADC Pipelined ADC Folding ADC Other ADCs Stand-Alone DACs
Oversampling Data Converters
Concept of Quantizer in Feedback ΔΣ Modulator High-Order Architectures Discrete-Time (DT) versus Continuous-Time (CT) Modulators Discrete-Time Modulator Design Band-Pass Modulator Design Continuous-Time Modulator Design Interpolative Oversampling DAC
High-Resolution Data Converters
Nonlinearity of the Analog-to-Digital Converter Evolution of High-Resolution ADC Design Digital Calibration of ADC Digital Background Calibration Digital Processing for Gain Nonlinearity Calibration by Zero-Forcing Least-Mean-Square Feedback Calibration of Time-Interleaving ADC Calibrated Continuous-Time (CT) ΔΣ Modulators Calibration of Current-Steering DAC
Phase-Locked Loop Basics
Phase Noise Phase-Locked Loop Operation Phase Noise Transfer Function Phase Detector Charge-Pumped Phase-Locked Loop PLL Bandwidth Constraints High-Q LC VCO Low-Q Ring-Oscillator VCO Prescaler
Frequency Synthesis and Clock Recovery
Phase-Locked Loop Applications Digital PLL Frequency Synthesis Spur-Canceled Fractional-N Frequency Synthesizer Data Symbols Data Channel Equalization Clock and Data Recovery NRZ Phase Detector
microcmos-design.pdf
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