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As technology advances, digital system designers must acquire and maintain skills to design systems with analog, pulse/time, and digital circuits along with LSI and VLSI devices. The CRC Handbook of Digital System Design, Second Edition reviews the fundamentals of these topics for the convenience of designers who need to refresh their memories from time to time. In a somewhat unique presentation, this book integrates theory with practical design and covers three broad topics: The basics- formulas, design equation, terminology, symbols, and notation Characterstics, properties, and principles of operation of devices, modules, and building blocks frequently used as components in digital system design Design procedures-guidelines for system design presented through examples The author includes numerous examples, both simple and complex, throughout the book that help clarify points often confusing or overlooked. He also addresses memory and arithmetic unit design, techniques of grounding and shielding for analog and digital noise, and graphical techniques for nonlinear circuits and transmission line analysis. The style is straightforward, the treatment self-contained and practical. The CRC Handbook of Digital System Design, Second Edition remains a popular and valuable resource for anyone involved in digital system design.
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Working as an engineer with advanced weapon systems for more than 25 years, it was crucial to understand the fundamentals of numbering systems, logic gate design, and the logical math known as Boolean Algebra. Whether as a technician or engineer, these fundamentals are the basics of engineering and are essential in interpreting logic gate functionality. The intent of this book is to provide much more information than most commercial engineering references currently offer. In Chapter 1, numbering systems such as binary, octal, hexadecimal, gray code, binary-coded decimal, and other systems are discussed. Chapter 2 discusses constants and variables, implementing the basic design of truth tables, basic gate operators, and several other logic gate designs. Chapter 3 provides a broad array of Boolean Algebra symbology and logic gate operations, discussing topics such as properties, theorems, implementing and interpreting truth tables from Boolean Algebra expressions, finding minterms and maxterms from symbology expressions, and more. The chapter review and chapter answer sections provide an extensive number of questions with comprehensive insight to showing how to attain the answers. This book will be an extremely valuable asset for technical and engineering students studying digital system design.
Digital Systems Design with FPGAs and CPLDs explains how to design and develop digital electronic systems using programmable logic devices (PLDs). Totally practical in nature, the book features numerous (quantify when known) case study designs using a variety of Field Programmable Gate Array (FPGA) and Complex Programmable Logic Devices (CPLD), for a range of applications from control and instrumentation to semiconductor automatic test equipment.Key features include:* Case studies that provide a walk through of the design process, highlighting the trade-offs involved.* Discussion of real world issues such as choice of device, pin-out, power supply, power supply decoupling, signal integrity- for embedding FPGAs within a PCB based design.With this book engineers will be able to:* Use PLD technology to develop digital and mixed signal electronic systems* Develop PLD based designs using both schematic capture and VHDL synthesis techniques* Interface a PLD to digital and mixed-signal systems* Undertake complete design exercises from design concept through to the build and test of PLD based electronic hardwareThis book will be ideal for electronic and computer engineering students taking a practical or Lab based course on digital systems development using PLDs and for engineers in industry looking for concrete advice on developing a digital system using a FPGA or CPLD as its core. - Case studies that provide a walk through of the design process, highlighting the trade-offs involved. - Discussion of real world issues such as choice of device, pin-out, power supply, power supply decoupling, signal integrity- for embedding FPGAs within a PCB based design.
DIGITAL SYSTEM DESIGN USING FSMS Explore this concise guide perfect for digital designers and students of electronic engineering who work in or study embedded systems Digital System Design using FSMs: A Practical Learning Approach delivers a thorough update on the author’s earlier work, FSM-Based Digital Design using Verilog HDL. The new book retains the foundational content from the first book while including refreshed content to cover the design of Finite State Machines delivered in a linear programmed learning format. The author describes a different form of State Machines based on Toggle Flip Flops and Data Flip Flops. The book includes many figures of which 15 are Verilog HDL simulations that readers can use to test out the design methods described in the book, as well as 19 Logisim simulation files with figures. Additional circuits are also contained within the Wiley web folder. It has tutorials and exercises, including comprehensive coverage of real-world examples demonstrated alongside the frame-by-frame presentations of the techniques used. In addition to covering the necessary Boolean algebra in sufficient detail for the reader to implement the FSM based systems used in the book, readers will also benefit from the inclusion of: A thorough introduction to finite-state machines and state diagrams for the design of electronic circuits and systems An exploration of using state diagrams to control external hardware subsystems Discussions of synthesizing hardware from a state diagram, synchronous and asynchronous finite-state machine designs, and testing finite-state machines using a test-bench module A treatment of the One Hot Technique in finite-state machine design An examination of Verilog HDL, including its elements An analysis of Petri-Nets including both sequential and parallel system design Suitable for design engineers and senior technicians seeking to enhance their skills in developing digital systems, Digital System Design using FSMs: A Practical Learning Approach will also earn a place in the libraries of undergraduate and graduate electrical and electronic engineering students and researchers.
If you design electronics for a living, you need Robust Electronic Design Reference Book. Written by a working engineer, who has put over 115 electronic products into production at Sycor, IBM, and Lexmark, Robust Electronic Design Reference covers all the various aspects of designing and developing electronic devices and systems that: -Work. -Are safe and reliable. -Can be manufactured, tested, repaired, and serviced. -May be sold and used worldwide. -Can be adapted or enhanced to meet new and changing requirements.
This reference features papers from the Special Session of the American Mathematical Society Meeting held in 1990 at the University of North Texas, Denton - discussing and developing research on boundary value problems for nonlinear partial differential equations and related problems.;Written by more than 15 authorities in the field, Geometric Analysis and Nonlinear Partial Differential Equations: presents methods and results of the convex bodies and geometric inequalities theory and its applications to differential equations, geometry, and mathematical physics; details recent studies on Monge-Ampere equations, emphasizing geometric inequalities governing a priori estimates of solutions and existence theorems of the Dirichlet problem for convex generalized solutions and showing the proofs of all theorems; examines the generalization of the isoperimetric inequality for two-dimensional general convex surfaces whose integral Gaussian curvature is less than 2 pi; and contains open problems on the theory of surfaces with constant mean curvature.;Geometric Analysis and Nonlinear Partial Differential Equations is for mathematical analysts, geometers, pure and applied mathematicians, physicists, engineers, computer scientists, and upper-level undergraduate and graduate students in these disciplines.
This book describes for readers the entire, interconnected complex of theoretical and practical aspects of designing and organizing the production of various electronic devices, the general and main distinguishing feature of which is the high speed of processing and transmitting of digital signals. The authors discuss all the main stages of design - from the upper system level of the hierarchy (telecommunications system, 5G mobile communications) to the lower level of basic semiconductor elements, printed circuit boards. Since the developers of these devices in practice deal with distorted digital signals that are transmitted against a background of interference, the authors not only explain the physical nature of such effects, but also offer specific solutions as to how to avoid such parasitic effects, even at the design stage of high-speed devices.
Working as an engineer with advanced weapon systems for more than 25 years, it was crucial to understand the fundamentals of digital systems design development methods and combinational logic circuits. Whether as a technician or as an engineer, these fundamentals are the basics of engineering and are essential in interpreting logic gate functionality. The intent of this book is to provide much more information than most commercial engineering references currently offer. Chapter 1, Latch and Flip Flop Circuits, discusses fundamental operations of NAND gate latch, NOR gate latch, gated S-C latch, gated D latch, four-bit bistable latch, D-type flip flop, JK-type flip flop, and master slave JK-type flip flop circuits. Chapter 2, Characteristics of Digital Circuits, provides a brief introduction to circuit characteristics. This chapter discusses RC time constants, electrical and dynamic behavior of circuits, timing considerations, and data storage and transfer devices. The chapter review and answer sections contain an extensive number of questions that afford comprehensive insights into obtaining the answers. This book will be an extremely valuable asset for technical and engineering students studying digital system design.