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The first book on electric and hybrid vehicles (EVs) written specifically for automotive students and vehicle owners Clear diagrams, photos and flow charts outline the charging infrastructure, how EV technology works, and how to repair and maintain hybrid and electric vehicles Optional IMI online eLearning materials enable students to study the subject further and test their knowledge Full coverage of IMI Level 2 Award in Hybrid Electric Vehicle Operation and Maintenance, IMI Level 3 Award in Hybrid Electric Vehicle Repair and Replacement, IMI Accreditation, C&G and other EV/Hybrid courses. The first book on electric and hybrid vehicles (endorsed by the IMI) starts with an introduction to the market, covering the different types of electric vehicle, costs and emissions, and the charging infrastructure, before moving on to explain how hybrid and electric vehicles work. A chapter on electrical technology introduces learners to subjects such as batteries, control systems and charging which are then covered in more detail within their own chapters. The book also covers the maintenance and repair procedures of these vehicles, including fault finding, servicing, repair and first-responder information. Case studies are used throughout to illustrate different technologies.
Electric and Hybrid Vehicles: Power Sources, Models, Sustainability, Infrastructure and the Market reviews the performance, cost, safety, and sustainability of battery systems for hybrid electric vehicles (HEVs) and electric vehicles (EVs), including nickel-metal hydride batteries and Li-ion batteries. Throughout this book, especially in the first chapters, alternative vehicles with different power trains are compared in terms of lifetime cost, fuel consumption, and environmental impact. The emissions of greenhouse gases are particularly dealt with. The improvement of the battery, or fuel cell, performance and governmental incentives will play a fundamental role in determining how far and how substantial alternative vehicles will penetrate into the market. An adequate recharging infrastructure is of paramount importance for the diffusion of vehicles powered by batteries and fuel cells, as it may contribute to overcome the so-called range anxiety."" Thus, proposed battery charging techniques are summarized and hydrogen refueling stations are described. The final chapter reviews the state of the art of the current models of hybrid and electric vehicles along with the powertrain solutions adopted by the major automakers. - Contributions from the worlds leading industry and research experts - Executive summaries of specific case studies - Information on basic research and application approaches
Hybrid Electric Vehicle Technology provides foundational information about vehicles that use more than one propulsion technology to power a drive system. This textbook is filled with technical illustrations and concise descriptions of the different configurations and vehicle platforms, the operation of various systems and the technologies involved, and the maintenance of hybrid electric vehicles. Safety precautions required used when working around high-voltage vehicle systems, especially in emergencies, are highlighted.
The role of the modern automotive technician has changed drastically in the past decade. The job of today's vehicle specialist involves a deep knowledge of a wide variety of technical disciplines. Few professions encompass such a diverse understanding of technology. The automotive technician is now expected to know about chemistry, electronics, mechanics, optics, as well as posses a deep analytical mind. The last only comes with time and experience. Advanced HYBRID Vehicle Systems (vol 1), Including Toyota & Honda models By Mandy Concepcion Table of Contents CHAPTER 1 (Hybrid Basics and Safety Procedures) The Need for Hybrid Systems Hybrid Do's and Dont's Here are some definite do's Hybrid basics and safety procedures Hybrid power down procedure and deactivation High voltage measurement and equipment Humidity and high-voltage CHAPTER 2 (Hybrid Aerodynamics and Low Friction Tires) Low friction components and non-belt driven coolant pump, and air conditioning compressor The AC system EPS system, or electric power steering Replacement of the actual electric motor Performing a zero rest procedure CHAPTER 3 (Advanced Electronics for Hybrids) The dangers of amperage and High Current Circuits Current measurements using an electromagnetic probe (clamp on) Voltage measurement on hybrid vehicles (advanced concepts) Measure the high voltage circuit at the orange cables after a power down procedure The Dropping Resistors CHAPTER 4 (Basic Electric Motor and Power Generation) Principle of Induction Electric Motors and Electric Alternating Current The DC Electric Motor The AC Electric Motor Important facts about electric hybrid motor generator units Typical hybrid motor generator Dangers of Inverter Internal Capacitors Motor Commutation Plates Hybrid Motor Position Sensor Motor control techniques Difference between a hybrid vehicle electrical motor and a regular AC motor The TRIAC and IGBT (Isolated Gate Bipolar Transistor) Hybrid Regenerative Breaking CHAPTER 5 (AC and DC Power Units of Measurements) Frequency measurements Phase Measurement Voltage Measurements Using a Clamp-On AMP Probe The 3 Phases of a HYBRID Motor (U, V, W) The Inverter Unit on the Prius DC Brushless Motors CHAPTER 6 (basic battery technology) The nickel metal hydride battery The lithium ion battery Toyota Prius high Voltage battery Ultra-Capacitors V R L A or variable regulation lead acid battery CHAPTER 7 (The 6 Hybrid Modes of Operation) HYBRID Computer System Control Light Acceleration Mode Regenerative Breaking Mode Deceleration Mode Normal Driving Mode STOP Mode M1's Biggest Contribution to the HYBRID Unit CHAPTER 8 (Parallel and Series Hybrid Systems) Series hybrid system Series, parallel, and series/parallel hybrid Inverter Power Management Parallel hybrid system Parallel/Series hybrid system Toyota motor Co. and AISIN CHAPTER 9 (The Prius CVT or continuously variable transmission) THS or hybrid synergy Drive Transmission Planetary Gears Key point to understanding the way this transmission works HONDA CVT Transmission Honda's Cylinder Deactivation Honda's Electric Balancing CHAPTER 10 (Toyota specific hybrid system) Specific concepts on the Toyota hybrid Problems with the Coolant Pump Gas Tank Rubber Bladder Car Off AC System The Scanner and the HYBRID System High Voltage Battery MG1 and MG2 Power Output The Toyota auxiliary 12 V battery How to Jump Start a HYBRID A Word About Toyota's Keyless Entry Dangers of Electric Mode Driving CHAPTER 11 (Honda specific hybrid system) The Honda hybrid system is vastly different than that of Toyota HONDA Hybrid is a Simple Design IMA or integrated motor assist The Motor Generator Unit The 12 volt Starter Honda Electronic Balancing The 1.3L Engine Soft iridium spark plugs Honda Civic Complete Cylinder Deactivation
Diagnostics, or fault finding, is a fundamental part of an automotive technician's work, and as automotive systems become increasingly complex there is a greater need for good diagnostic skills. Advanced Automotive Fault Diagnosis is the only book to treat automotive diagnostics as a science rather than a check-list procedure. Each chapter includes basic principles and examples of a vehicle system followed by the appropriate diagnostic techniques, complete with useful diagrams, flow charts, case studies and self-assessment questions. The book will help new students develop diagnostic skills and help experienced technicians improve even further. This new edition is fully updated to the latest technological developments. Two new chapters have been added – On-board diagnostics and Oscilloscope diagnostics – and the coverage has been matched to the latest curricula of motor vehicle qualifications, including: IMI and C&G Technical Certificates and NVQs; Level 4 diagnostic units; BTEC National and Higher National qualifications from Edexcel; International Motor Vehicle qualifications such as C&G 3905; and ASE certification in the USA.
A thoroughly revised third edition of this widely praised, bestselling textbook presents a comprehensive systems-level perspective of electric and hybrid vehicles with emphasis on technical aspects, mathematical relationships and basic design guidelines. The emerging technologies of electric vehicles require the dedication of current and future engineers, so the target audience for the book is the young professionals and students in engineering eager to learn about the area. The book is concise and clear, its mathematics are kept to a necessary minimum and it contains a well-balanced set of contents of the complex technology. Engineers of multiple disciplines can either get a broader overview or explore in depth a particular aspect of electric or hybrid vehicles. Additions in the third edition include simulation-based design analysis of electric and hybrid vehicles and their powertrain components, particularly that of traction inverters, electric machines and motor drives. The technology trends to incorporate wide bandgap power electronics and reduced rare-earth permanent magnet electric machines in the powertrain components have been highlighted. Charging stations are a critical component for the electric vehicle infrastructure, and hence, a chapter on vehicle interactions with the power grid has been added. Autonomous driving is another emerging technology, and a chapter is included describing the autonomous driving system architecture and the hardware and software needs for such systems. The platform has been set in this book for system-level simulations to develop models using various softwares used in academia and industry, such as MATLAB®/Simulink, PLECS, PSIM, Motor-CAD and Altair Flux. Examples and simulation results are provided in this edition using these software tools. The third edition is a timely revision and contribution to the field of electric vehicles that has reached recently notable markets in a more and more environmentally sensitive world.
"Electric and hybrid vehicle technologies are taking an increasing share of the automotive market. High voltage systems are becoming more commonplace on today's vehicles and need technicians that are prepared to service them, safely and competently. Training in the service of vehicles with high voltage components is of critical importance for today's technicians. This complete outcomes-based curriculum provides coverage from safety to three-phase accessories, and from HV thermal systems to autonomous operation. Light Duty Hybrid/Electric Vehicles is intended to prepare technicians for servicing the electric and hybrid vehicles they will increasingly encounter on the job"--
This illustrated history chronicles electric and hybrid cars from the late 19th century to today's fuel cell and plug-in automobiles. It describes the politics, technology, marketing strategies, and environmental issues that have impacted electric and hybrid cars' research and development. The important marketing shift from a "woman's car" to "going green" is discussed. Milestone projects and technologies such as early batteries, hydrogen and bio-mass fuel cells, the upsurge of hybrid vehicles, and the various regulations and market forces that have shaped the industry are also covered.
This concise book has been designed for easy reading and to meet the critical skill requirements of students in the branches of Automobile Engineering and Mechanical Engineering and Mechanical Engineering. The contents are presented in 22 lucid chapters. The book deals with the fundamentals, electric vehicles (EVs), hybrid electric vehicles (HEVs), and fuel cell vehicles (FCVs). It comprehensively presents vehicle performance, configuration, and control strategy for different electric and hybrid electric vehicles. This course book is intended for use as a Textbook and as a primary Reference book by colleges and technical universities offering core and elective subjects like Electric and Hybrid Vehicles and New Generation Vehicles.
Plug-in electric vehicles are coming. Major automakers plan to commercialize their first models soon, while Israel and Denmark have ambitious plans to electrify large portions of their vehicle fleets. No technology has greater potential to end the United States' crippling dependence on oil, which leaves the nation vulnerable to price shocks, supply disruptions, environmental degradation, and national security threats including terrorism. What does the future hold for this critical technology, and what should the U.S. government do to promote it? Hybrid vehicles now number more than one million on America's roads, and they are in high demand from consumers. The next major technological step is the plug-in electric vehicle. It combines an internal combustion engine and electric motor, just as hybrids do. But unlike their precursors, PEVs can be recharged from standard electric outlets, meaning the vehicles would no longer be dependent on oil. Widespread growth in the use of PEVs would dramatically reduce oil dependence, cut driving costs and reduce pollution from vehicles. National security would be enhanced, as reduced oil dependence decreases the leverage and resources of petroleum exporters. Brookings fellow David Sandalow heads up an authoritative team of experts including former government officials, private-sector analysts, academic experts, and nongovernmental advocates. Together they explain the current landscape for PEVs: the technology, the economics, and the implications for national security and the environment. They examine how the national interest could be served by federal promotion and investment in PEVs. For example, can tax or procurement policy advance the cause of PEVs? Should the public sector contribute to greater research and development? Should the government insist on PEVs to replenish its huge fleet of official vehicles? Plug-in electric vehicles are coming. But how soon, in what numbers, and to what effect? Feder