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Book Description
Synopsis
This comprehensive handbook is a one-stop engineering reference. Covering data converter fundamentals, techniques, applications, and beginning with the basic theoretical elements necessary for a complete understanding of data converters, this reference covers all the latest advances in the field. This text describes in depth the theory behind and the practical design of data conversion circuits as well as describing the different architectures used in A/D and D/A converters. Details are provided on the design of high-speed ADCs, high accuracy DACs and ADCs, and sample-and-hold amplifiers. Also, this reference covers voltage sources and current reference, noise-shaping coding, and sigma-delta converters, and much more. The books 900-plus pages are packed with design information and application circuits, including guidelines on selecting the most suitable converters for particular applications. You'll find the very latest information on: data converter fundamentals, such as key specifications, noise, sampling, and testing; architectures and processes, including SAR, flash, pipelined, folding, and more; practical hardware design techniques for mixed-signal systems, such as driving ADCs, buffering DAC outputs, sampling clocks, layout, interfacing, support circuits, and tools; and data converter applications dealing with precision measurement, data acquisition, audio, display, DDS, software radio, and many more. The accompanying CD-ROM provides software tools for testing and analyzing data converters as well as a searchable pdf version of the text. .indent { MARGIN-LEFT: 1em } .spacer { PADDING-RIGHT: 0px; MARGIN-TOP: 10px; PADDING-LEFT: 0px; MARGIN-BOTTOM: 10px; PADDING-BOTTOM: 0px; PADDING-TOP: 0px }
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Book Description
Working from the fundamentals of transistor-level design and building up to system-level considerations, digital Integrated Circuit Design shows students with minimal background in electronics how to design state-of-the-art high performance digital integrated circuits. Ideal as an upper-level undergraduate text, it can also be used in first-year graduate courses and as a reference for practising engineers. |
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Book Description
The start-to-finish guide for engineers designing high-speed digital circuit boards and systems using today's common EDA tools.
Provides detailed technical information on high-speed device families, applications and over 30 EDA tools that other books omit.
Engineers will benefit by developing a robust skillset and having a desk-side design companion 24/7.
End of chapter exercises allow readers to implement the knowledge and techniques learned in each section. This practical handbook fills in gaps that other textbooks on high-speed design don't discuss, covering every aspect of high-speed board-level digital design. Several design examples at high Gigabit per second data rates are presented. Discusses highest-speed logic and interface families of devices, relevant applications, and device speeds versus how far signals transmit with good signal integrity. A quick-reference overview of each device family is also provided. High-speed design rules are presented for both engineering design and printed circuit board layout. Emphasizes designing high-speed backplanes, driving cabling, bus architecture and topology. Discusses IBIS and SPICE modeling, simulations, design processes, and over 30 design automation tools. Quantifies signal integrity using jitter and bit error rate measurements, eye diagrams, time-domain reflectometry and transmission. Details high-speed transmission line and parasitic effects, cabling, connectors, single-ended/differential terminations, lab test equipment, and intellectual property. Dedicated chapter on fiber optics and when to use.
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Analog circuit books 