Multiplexing can be best discussed at three levels - vehicle, ECU or component, and IC. Within each level are partitions for software and hardware, and within each partition are divisions of functionality such as buffer size. The content in this book will help the reader to acquire a basic understanding of vehicle multiplexing systems, primarily from the passenger car and light truck viewpoint. Some discussion of heavy-duty and off-road vehicle multiplexing is presented, along with a look at industrial automation - a fast-growing multiplex field already eclipsing automotive usage.

Winner of the Engineer-Historian Award from the International History and Heritage Committee of the American Society of Mechanical Engineers, and the Nicholas-Joseph Cugnot Award given by the Society of Automotive Historians Recent attention to hybrid cars that run on both gasoline and electric batteries has made the electric car an apparent alternative to the internal combustion engine and its attendant environmental costs and geopolitical implications. Few people realize that the electric car—neither a recent invention nor a historical curiosity—has a story as old as that of the gasoline-powered automobile, and that at one time many in the nascent automobile industry believed battery-powered engines would become the dominant technology. In both Europe and America, electric cars and trucks succeeded in meeting the needs of a wide range of consumers. Before World War II, as many as 30,000 electric cars and more than 10,000 electric trucks plied American roads; European cities were busy with, electrically propelled fire engines, taxis, delivery vans, buses, heavy trucks and private cars. Even so, throughout the century-long history of electric propulsion, the widespread conviction it was an inferior technology remained stubbornly in place, an assumption mirrored in popular and scholarly memory. In The Electric Vehicle, Gijs Mom challenges this view, arguing that at the beginning of the automobile age neither the internal combustion engine nor the battery-powered vehicle enjoyed a clear advantage. He explores the technology and marketing/consumer-ratio faction relationship over four "generations" of electric-vehicle design, with separate chapters on privately owned passenger cars and commercial vehicles. Mom makes comparisons among European countries and between Europe and America. He finds that the electric vehicle offered many advantages, among them greater reliability and control, less noise and pollution. He also argues that a nexus of factors—cultural (underpowered and less rugged, electric cars seemed "feminine" at a time when most car buyers were men), structural (the shortcomings of battery technology at the time), and systemic (the infrastructural problems of changing large numbers of batteries)—ultimately gave an edge to the internal combustion engine. One hopes, as a new generation of electric vehicles becomes a reality, The Electric Vehicle offers a long-overdue reassessment of the place of this technology in the history of street transportation.

Draws conclusions for the future of the industry in the USA.

THEORY OF GROUND VEHICLES A leading and authoritative text for advancing ground vehicle mobility Theory of Ground Vehicles, Fifth Edition presents updated and expanded coverage of the critical factors affecting the performance, handling, and ride essential to the development and design of road and off-road vehicles. Replacing internal combustion engines with zero-emission powerplants in ground vehicles to eliminate greenhouse gas emissions for curbing climate change has received worldwide attention by both the vehicle industry and governmental agencies. To enhance safety, traffic flow, and operating efficiency of road transport, automated driving systems have been under active development. With growing interest in the exploration of the Moon, Mars, and beyond, research in terramechanics for guiding the development of extraterrestrial rovers has been intensified. In this new edition, these and other topics of interest in the field of ground vehicle technology are explored, and technical data are updated. New features of this edition include: Expanded coverage of the fundamentals of electric drives, hybrid electric drives, and fuel cell technology Introduction to the classification and operating principles of the automated driving system and cooperative driving automation Applications of terramechanics to guiding the development of extraterrestrial rovers Elaboration on the approach to achieving the optimal operating efficiency of all-wheel drive off-road vehicles Introduction to updated ISO Standards for evaluating vehicle ride An updated and comprehensive text and reference for both the educational and professional communities, Theory of Ground Vehicles, Fifth Edition will prove invaluable to aspiring and practicing engineers seeking to solve real-world road and off-road vehicle mobility problems.

The modern tire is the most complex, composite product in mass production. Yet given its complexity and required performance, there is little information in the public domain regarding its development. This book provides an introduction to tire design, construction, and manufacturing in the context of materials technologies used today, along with future trends and disrupting technologies. Focuses on design and construction Discusses the relationship between materials and performance Reviews tire uniformity as a key differentiator among manufacturers Evaluates design and construction features versus performance Written for engineers in the polymer, industrial, chemical, mechanical, and automotive industries, this book offers a comprehensive view of tire design, including materials selection, construction, manufacturing, quality control, and future trends.

Combustion Engineering, a topic generally taught at the upper undergraduate and graduate level in most mechanical engineering programs, and many chemical engineering programs, is the study of rapid energy and mass transfer usually through the common physical phenomena of flame oxidation. It covers the physics and chemistry of this process and the engineering applications - from the generation of power such as the internal combustion automobile engine to the gas turbine engine. Renewed concerns about energy efficiency and fuel costs, along with continued concerns over toxic and particulate emissions have kept the interest in this vital area of engineering high and brought about new developments in both fundamental knowledge of flame and combustion physics as well as new technologies for flame and fuel control. - New chapter on new combustion concepts and technologies, including discussion on nanotechnology as related to combustion, as well as microgravity combustion, microcombustion, and catalytic combustion - all interrelated and discussed by considering scaling issues (e.g., length and time scales) - New information on sensitivity analysis of reaction mechanisms and generation and application of reduced mechanisms - Expanded coverage of turbulent reactive flows to better illustrate real-world applications - Important new sections on stabilization of diffusion flames. For the first time, the concept of triple flames will be introduced and discussed in the context of diffusion flame stabilization

While the classic battery electric car continues to make only a small impact on the automobile market, other types of electric vehicle, especially hybrids, have made significant and promising improvements. Moreover, small battery electric vehicles such as bicycles and mobility aids are also developing well. Presenting more than 160 diagrams and pictures, this book explains the science and technology behind these important developments, and also introduces the issues that underpin the design and performance modelling of electric vehicles. Electric Vehicle Technology Explained: Encompasses a full range of electric vehicles: bicycles, mobility aids, delivery vehicles and buses – not just cars. Covers all the basic technology relating to electric road vehicles – batteries, super capacitors, flywheels, fuel cells, electric motors and their controllers, and system design. Considers the environmental benefits and disadvantages of electric vehicles and their component devices. Includes case studies of a range of batteries, hybrids and fuel cell powered vehicles, from bicycles to buses. Offers many MATLAB® examples explaining the design of appropriate computer prediction models. Professionals, researchers and engineers in the electric vehicle industry as well as advanced students in electrical and mechanical engineering will benefit from this comprehensive coverage of electric vehicle technology.

"Jones & Bartlett Learning CDX Automotive"--Cover

“Billy Durant (1861-1947) put together General Motors, model by model, and twice lost it — to the bankers and the engineers, and to ego. It’s a big, meaty, broadly suggestive story that Bernard Weisberger tells — properly qualified and documented — to rescue Durant from the ‘oblivion which is the price of failure in America.’ Durant’s fate, it appears, was in his stars. His energy and drive came from maternal grandfather Henry Howland Crapo, midwest magna-merchant, first citizen of Flint, and twice Michigan’s governor. The failure — dreaded and repeatedly — was that of his wastrel father. Leaving school young, he quickly ‘unveiled his true, shining gift, which was salesmanship’ — but not of the conventional, glad-handing sort; rather, he conveyed his own faith in the product, opening new vistas for the customer. The problem, to find a worthy product — or to make one — was solved with the appearance of a simple cart, mounted on ingenious springs, that didn’t jounce. Within hours Durant had bought out the cart ‘factory,’ raised the necessary money, and acquired a partner — the first of the exceptionally able associates (Nash, Champion, Kettering, Chrysler, Sloan) whom he fired with his dreams. The crucial jump into auto production — ‘a whole new physical and economic landscape’ — came with the foundering Buick; and it was then that Durant discovered, critically, the ability to raise money in the stock market from the sale of nebulous assets. As Durant goes on by this means to incorporate GM, to add a parts division, to diversify (‘Frigidaire’ was his name and baby too), Weisberger returns intermittently to his dual nature — the empire-builder impatient of routine and detail. But it was also pride that he’d proven himself not his father’s son that brought Durant down — for he lost GM the second time by trying single-handedly, in 1929, to prop up the tottering market for its stocks; and this madness the Morgans and Du Ponts could not excuse. Nothing, however, becomes Durant more than his failure to admit defeat; after the collapse of another auto company, launched under his name, he returned to Flint to set up, foresightedly, a respectable bowling alley. His ‘pathetic dignity and courage’ cap a memorable personal portrait far above the business-biography norm.” — Kirkus “Billy Durant deserved a good biography, and he got one... Weisberger has... collect[ed] every scrap of information that could be found and [put] it together in a complete picture of Durant and his work. It gives the first comprehensive account of his family background and private life... A variety of interesting figures appear, some well-known, others now forgotten — Alfred P. Sloan, Pierre Du Pont, John J. Raskob, Charles W. Nash, Walter Chrysler, Louis Chevrolet, David D. Buick. Each has a biographical sketch. Durant himself is appraised remarkably dispassionately, good points and bad, from his ability to see the great opportunities in the automobile industry to speculative mania that ultimately destroyed him... [Durant] emerges in this book very much like the protagonist in a Greek tragedy. He rose high and fell far because his great talents were offset be equally great flaws... Billy Durant could make dreams. He just could not make them come true.” — The Washington Post “[A] monumental work... Weisberger, ha[s]... painstakingly explored and researched America’s greatest success story.” — The Lantern (Columbus, Ohio)

This book provides comprehensive coverage of vehicle electric and electronic systems including electronic test equipment. It is fully up-to-date with current technology and includes a chapter on electric powered vehicles.