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Some examples have been presented of BiCMOS circuit design in mixed signal ASICs. It is by no means an exhaustive list. Many cells have not been mentioned, including 300MHz CMOS Video DACs, 20 Bit Sigma-Delta ADCs, Real-time and Switched-Cap Filters, Line Drivers and Receivers and many more. References. [1] J.Corcoran "High Speed Sample and Hold and Analog-to-Digital Converter Circuits",Advances in Analog Circuit Design, April1992. [2] Y.S.Yee,L.M.Terman and L.G.Heller "A lmV MOS comparator," IEEE J. of Solid-State Circuits, vol. SC-13, June 1978. [3] M.Timko and P.Holloway "Circuit Techniques for Achieving High Speed High Resolution AID Conversion" IEEE Journal of Solid-State Circuits, vol. SC-15, No.6, December 1980. [4] W.H. Gross "New High Speed Amplifier Design, Design Techniques and Layout Problems", Advances in Analog Circuit Design, April 1992. MIXED SIGNAL ASIC DESIGN FOR AUTOMOTIVE AND INDUSTRIAL APPLICATIONS H. Casicr Mietcc Alcatel, Brussels, Belgium ABSTRACT This paper describes the special aspects of mixed signal design in the ASIC environment. The knowledge of the application specific environment and of the function of the ASIC can be used advantageously to lower the cost and to enhance the performance at all levels of design. Several examples of this cost improvement and performance enhancement at device, circuit and system level are shown.
This textbook fills a gap to supply students with the fundamental principles and tools they need to perform the quantitative analyses of the neuroelectrophysiological approaches, including both conventional and emerging ones, prevalently used in neuroscience research and neuroprosthetics. The content grows out of a course on Neuroengineering and Neuroprosthetics, which the author has taught already several times. The key problems the author addresses include (1) the universal operating mechanisms of neuroelectrophysiological approaches, (2) proper configuration of each approach, and (3) proper interpretation of the resulting signals. Efforts are made both to extract the universal principles underlying this common class of approaches and discern the unique properties of each individual approach. To address these important problems, equivalent electrical circuit modeling and signal analysis are used to unravel the functioning mechanisms and principles and provide sound interpretations to the associated signals and phenomena. This book aims to derive analytical solutions to these equivalent circuits, which can offer clear and complete mechanistic insights to the underlying biophysics.
This book covers the fundamental knowledge of layout design from the ground up, addressing both physical design, as generally applied to digital circuits, and analog layout. Such knowledge provides the critical awareness and insights a layout designer must possess to convert a structural description produced during circuit design into the physical layout used for IC/PCB fabrication. The book introduces the technological know-how to transform silicon into functional devices, to understand the technology for which a layout is targeted (Chap. 2). Using this core technology knowledge as the foundation, subsequent chapters delve deeper into specific constraints and aspects of physical design, such as interfaces, design rules and libraries (Chap. 3), design flows and models (Chap. 4), design steps (Chap. 5), analog design specifics (Chap. 6), and finally reliability measures (Chap. 7). Besides serving as a textbook for engineering students, this book is a foundational reference for today’s circuit designers. For Slides and Other Information: https://www.ifte.de/books/pd/index.html
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. The Latest Silicon-on-Sapphire CMOS Design and Fabrication Techniques Develop high-performance SOS-based microsystems. Filled with examples, schematics, and charts, Silicon-on-Sapphire Circuits and Systems covers the latest analog and mixed-signal IC design techniques. Learn how to assemble SOI/SOS circuits and systems, work with an insulated substrate and device models, create miniaturized amplifiers and switches, and build ADCs and DACs. You will also find information on constructing photosensitive circuits and memory chips, deploying integrated biosensors, overcoming noise and power issues, and maximizing efficiency. Discover how to: Extract active and passive device models and parameters Design single-stage amplifiers, op amps, references, and comparators Build digital processors, data converters, and mixed-mode circuits Deploy photodetectors in active pixel sensor and imaging arrays Optimize performance, quantum efficiency, and signal-to-noise ratio Develop current and voltage mode SOS-based biosensors Use CMOS, monolithic, and digital phase-shift isolation techniques Integrate the latest three-dimensional assemblies and die packages