Synopses & Reviews
A pioneering guide to the design of integrated circuits on the nanoscale level, with a focus on emerging and future technologies
CMOS Nanoelectronics addresses the state-of-the-art in VLSI (very-large-scale-integration) CMOS integrated circuit design in the context of emerging markets. Written by top international experts in industry and academia, the book is geared towards those in the semiconductor industry who want to learn about nanoelectronics, and is suitable as an advanced-level textbook for graduate students in electrical engineering. This is a must-have resource for anyone serious about circuit design for future technologies.
CMOS Nanoelectronics
- Presents the state of the art in integrated circuit design in the context of emerging systems
- Covers new exciting opportunities in: body area networks; wireless communications; data networking; optical imaging
- Discusses emerging design concepts for very low power: high-speed serial links; PLL/DLL; and ADC/DAC converters
- Includes details on CMOS circuit design for communications, imaging, and sensing applications
Comprehensive coverage
Introduction to Analog Nanometer CMOS Circuits; Challenges of Analog Design in Deep Submicron CMOS Technologies and Techniques to Overcome Them; High-Speed Serial I/O Design for Channel-Limited and Power-Constrained Systems; Equalization Techniques for High-Speed Serial Data Links; CDMA-Based Crosstalk Cancellation Technique for High-Speed Chip-to-Chip Communication; Delta-Sigma Fractional-N PLL; Interaction Between Analog and All Digital PLL; Design and Applications of Delay Locked Loop; Analog Signal Processing; Error Regulation in Probabilistic Circuits; Exploiting Time Resolution in Nanometer CMOS Data Converters; Low-Power and Small-Area Pipe-Lined ADCs; 1/f Noise Reduction Technique for Linear Analog CMOS ICs; MeSOC-I: A Mixed Signal SOC for Bioinstrumentation in Medical Treatment and Health Care; System Architecture for Neural Electrical Interface Processing; Micropower Adaptive VLSI Systems for Acoustic Source Detection, Localization, and Separation; Low-Power ROM Based Logic Design; Thermal Issues in Deep Sub-Micron CMOS Technologies; Self-Testing Analog Circuits
Synopsis
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.In-depth coverage of integrated circuit design on the nanoscale level
Written by international experts in industry and academia, CMOS Nanoelectronics addresses the state of the art in integrated circuit design in the context of emerging systems. New, exciting opportunities in body area networks, wireless communications, data networking, and optical imaging are discussed. This cutting-edge guide explores emerging design concepts for very low power and describes design approaches for RF transceivers, high-speed serial links, PLL/DLL, and ADC/DAC converters.
CMOS Nanoelectronics covers:
- Portable high-efficiency polar transmitters
- All-digital RF signal generation
- Frequency multiplier design
- Tunable CMOS RF filters
- GaAs HBT linear power amplifier design
- High-speed serial I/O design
- CDMA-based crosstalk cancellation
- Delta-sigma fractional-N PLL
- Delay locked loops
- Digital clock generators
- Analog design in deep submicron CMOS technologies
- 1/f noise reduction for linear analog CMOS ICs
- Broadband high-resolution bandpass sigma-delta modulators
- Analog/digital conversion specifications for power line communication systems
- Digital-to-analog converters for LCDs
- Sub-1-V CMOS bandgap reference design
- And much more
Synopsis
In-depth coverage of integrated circuit design on the nanoscale level
Written by international experts in industry and academia, CMOS Nanoelectronics addresses the state of the art in integrated circuit design in the context of emerging systems. New, exciting opportunities in body area networks, wireless communications, data networking, and optical imaging are discussed. This cutting-edge guide explores emerging design concepts for very low power and describes design approaches for RF transceivers, high-speed serial links, PLL/DLL, and ADC/DAC converters.
CMOS Nanoelectronics covers: Portable high-efficiency polar transmitters All-digital RF signal generation Frequency multiplier design Tunable CMOS RF filters GaAs HBT linear power amplifier design High-speed serial I/O design CDMA-based crosstalk cancellation Delta-sigma fractional-N PLL Delay locked loops Digital clock generators Analog design in deep submicron CMOS technologies 1/f noise reduction for linear analog CMOS ICs Broadband high-resolution bandpass sigma-delta modulators Analog/digital conversion specifications for power line communication systems Digital-to-analog converters for LCDs Sub-1-V CMOS bandgap reference design And much more
About the Author
Krzysztof (Kris) Iniewski manages R&D developments at Redlen Technologies Inc., a start-up company in British Columbia. He is also Executive Director of CMOS Emerging Technologies Inc. (www.cmoset.com). His research interests are in hardware design for medical and networking applications. From 2004 to 2006 he was Associate Professor in the Electrical Engineering and Computer Engineering Department of the University of Alberta, where he conducted research on low power wireless circuits and systems. Previously, he has held various technical and management positions in industry, developing a number of VLSI chips used in optical networks, and he was also an Assistant Professor at the University of Toronto. Kris Iniewski has published over 100 research papers and holds 18 international patents granted in the United States, Canada, France, Germany, and Japan. He received his Ph.D. in electronics from the Warsaw University of Technology in 1988.
Table of Contents
Ch 1. Introduction to Analog Nanometer CMOS Circuits Ch 2. Challenges of Analog Design in Deep Submicron CMOS Technologies and Techniques to Overcome Them Ch 3. High-Speed Serial I/O Design for Channel-Limited and Power-Constrained Systems Ch 4. Equalization Techniques for High-Speed Serial Data Links Ch 5. CDMA-Based Crosstalk Cancellation Technique for High-Speed Chip-to-Chip Communication Ch 6. Delta-Sigma Fractional-N PLL Ch 7. Interaction Between Analog and All Digital PLL Ch 8. Design and Applications of Delay Locked Loop Ch 9. Analog Signal Processing Ch 10. Error Regulation in Probabilistic Circuits Ch 11. Exploiting Time Resolution in Nanometer CMOS Data Converters Ch 12. Low-Power and Small-Area Pipe-Lined ADCs Ch 13. 1/f Noise Reduction Technique for Linear Analog CMOS ICs Ch 14. MeSOC-I: A Mixed Signal SOC for Bioinstrumentation in Medical Treatment and Health Care Ch 15. System Architechture for Neural Electrical Interface Processing Ch 16. Micropower Adaptive VLSI Systems for Acoustic Source Detection, Localization, and Separation Ch 17. Low-Power ROM Based Logic Design Ch 18. Thermal Issues in Deep Sub-Micron CMOS Technologies Ch 19. Self-Testing Analog Circuits