Mixed-Signal Circuits offers a thoroughly modern treatment of integrated circuit design in the context of mixed-signal applications. Featuring chapters authored by leading experts from industry and academia, this book:
- Discusses signal integrity and large-scale simulation, verification, and testing
- Demonstrates advanced design techniques that enable digital circuits and sensitive analog circuits to coexist without any compromise
- Describes the process technology needed to address the performance challenges associated with developing complex mixed-signal circuits
- Deals with modeling topics, such as reliability, variability, and crosstalk, that define pre-silicon design methodology and trends, and are the focus of companies involved in wireless applications
- Develops methods to move analog into the digital domain quickly, minimizing and eliminating common trade-offs between performance, power consumption, simulation time, verification, size, and cost
- Details approaches for very low-power performances, high-speed interfaces, phase-locked loops (PLLs), voltage-controlled oscillators (VCOs), analog-to-digital converters (ADCs), and biomedical filters
- Delineates the respective parts of a full system-on-chip (SoC), from the digital parts to the baseband blocks, radio frequency (RF) circuitries, electrostatic-discharge (ESD) structures, and built-in self-test (BIST) architectures
Mixed-Signal Circuits explores exciting opportunities in wireless communications and beyond. The book is a must for anyone involved in mixed-signal circuit design for future technologies.
Author(s): Noulis, Thomas
Series: Devices circuits and systems
Publisher: CRC Press
Year: 2015
Language: English
Pages: 438
Tags: Приборостроение;Схемотехника;
Content: Ultra-Low-Voltage Analog Filters for Biomedical SystemsCostas Psychalinos, Farooq A. Khanday, and Georgia TsirimokouOffset Reduction Techniques in Flash A/D ConvertersLampros Mountrichas and Stylianos SiskosProtecting Mixed-Signal Technologies against Electrostatic Discharges: Challenges and Protection Strategies from Component to SystemMarise Bafleur, Fabrice Caignet, Nicolas Nolhier, Jean-Phillppe Laine, and Patrice BesseVariability and Reliability Issues in Mixed-Signal CircuitsGeorgios PanagopoulosMixed-Signal Circuit Testing Using Wavelet SignaturesMichael G. Dimopoulos, Alexios Spyronasios, and Alkis Hatzopoulos Topological Investigations and Phase Noise Analyses in CMOS LC Oscillator CircuitsIlias Chlis, Domenico Pepe, and Domenico ZitoDesign of an Energy-Efficient ZigBee TransceiverAntonio Gines, Rafaella Fiorelli, Alberto Villegas, Ricardo Doldan, Manuel Barragan, Diego Vazquez, Adoracion Rueda, and Eduardo PeraliasSimulation Techniques for Large-Scale CircuitsNestor Evmorfopoulos, Sotiris Bantas, and George StamoulisMixed-Signal IC Design Addressed to Substrate Noise Immunity in Bulk Silicon
toward 3D CircuitsOlivier Valorge, Fengyuan Sun, Jean-Etienne Lorival, Francis Calmon, and Christian GontrandFIR Filtering Techniques for Clock and Frequency GenerationNi Xu, Woogeun Rhee, and Zhihua WangDesign-for-Test Methods for Mixed-Signal SystemsMani SomaBuilt-In Testing and Tuning of Mixed-Signal/RF Systems: Exploiting the Alternative Testing ParadigmAbhijit Chatterjee and Jacob AbrahamSpectrally Pure Clock versus Flexible Clock: Which One Is More Efficient in Driving Future Electronic System?Liming XiuMachine Learning-Based BIST in Analog/RF ICsDzmitry Maliuk, Haralampos-G. Stratigopoulos, and Yiorgos MakrisClosed-Loop Spatial Audio CodingIkhwana Elfitri