Electronic Engineering Education Requirements

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  electronic engineering education requirements: Fundamentals of Microelectronics Behzad Razavi, 2013-04-08 Fundamentals of Microelectronics, 2nd Edition is designed to build a strong foundation in both design and analysis of electronic circuits this text offers conceptual understanding and mastery of the material by using modern examples to motivate and prepare readers for advanced courses and their careers. The books unique problem-solving framework enables readers to deconstruct complex problems into components that they are familiar with which builds the confidence and intuitive skills needed for success.
  electronic engineering education requirements: Electrical Engineering Allan R. Hambley, 2005 CD-ROMs contains: 2 CDs, one contains the Student Edition of LabView 7 Express, and the other contains OrCAD Lite 9.2.
  electronic engineering education requirements: Power System Engineering Juergen Schlabbach, Karl-Heinz Rofalski, 2014-07-21 With its focus on the requirements and procedures of tendering and project contracting, this book enables the reader to adapt the basics of power systems and equipment design to special tasks and engineering projects, e.g. the integration of renewable energy sources.
  electronic engineering education requirements: Exploring Engineering Philip Kosky, Robert T. Balmer, William D. Keat, George Wise, 2009-11-11 Winner in its first edition of the Best New Undergraduate Textbook by the Professional and Scholarly Publishing Division of the American Association of Publishers (AAP), Kosky, et al is the first text offering an introduction to the major engineering fields, and the engineering design process, with an interdisciplinary case study approach. It introduces the fundamental physical, chemical and material bases for all engineering work and presents the engineering design process using examples and hands-on projects. Organized in two parts to cover both the concepts and practice of engineering: Part I, Minds On, introduces the fundamental physical, chemical and material bases for all engineering work while Part II, Hands On, provides opportunity to do design projects An Engineering Ethics Decision Matrix is introduced in Chapter 1 and used throughout the book to pose ethical challenges and explore ethical decision-making in an engineering context Lists of Top Engineering Achievements and Top Engineering Challenges help put the material in context and show engineering as a vibrant discipline involved in solving societal problems New to this edition: Additional discussions on what engineers do, and the distinctions between engineers, technicians, and managers (Chapter 1) New coverage of Renewable Energy and Environmental Engineering helps emphasize the emerging interest in Sustainable Engineering New discussions of Six Sigma in the Design section, and expanded material on writing technical reports Re-organized and updated chapters in Part I to more closely align with specific engineering disciplines new end of chapter excercises throughout the book
  electronic engineering education requirements: A First Course in Electrical and Computer Engineering Louis L. Scharf, Richard T. Behrens, 1990
  electronic engineering education requirements: Advanced Mathematics for Electronics Technicians United States. Bureau of Naval Personnel, 1951
  electronic engineering education requirements: Understanding the Educational and Career Pathways of Engineers National Academy of Engineering, Committee on Understanding the Engineering Education-Workforce Continuum, 2019-01-26 Engineering skills and knowledge are foundational to technological innovation and development that drive long-term economic growth and help solve societal challenges. Therefore, to ensure national competitiveness and quality of life it is important to understand and to continuously adapt and improve the educational and career pathways of engineers in the United States. To gather this understanding it is necessary to study the people with the engineering skills and knowledge as well as the evolving system of institutions, policies, markets, people, and other resources that together prepare, deploy, and replenish the nation's engineering workforce. This report explores the characteristics and career choices of engineering graduates, particularly those with a BS or MS degree, who constitute the vast majority of degreed engineers, as well as the characteristics of those with non-engineering degrees who are employed as engineers in the United States. It provides insight into their educational and career pathways and related decision making, the forces that influence their decisions, and the implications for major elements of engineering education-to-workforce pathways.
  electronic engineering education requirements: Handbook of Research on Engineering Education in a Global Context Smirnova, Elena V., Clark, Robin P., 2018-08-31 Engineering education methods and standards are important features of engineering programs that should be carefully designed both to provide students and stakeholders with valuable, active, integrated learning experiences, and to provide a vehicle for assessing program outcomes. With the driving force of the globalization of the engineering profession, standards should be developed for mutual recognition of engineering education across the world, but it is proving difficult to achieve. The Handbook of Research on Engineering Education in a Global Context provides innovative insights into the importance of quality training and preparation for engineering students. It explores the common and current problems encountered in areas such as quality and standards, management information systems, innovation and enhanced learning technologies in education, as well as the challenges of employability, entrepreneurship, and diversity. This publication is vital reference source for science and engineering educators, engineering professionals, and educational administrators interested in topics centered on the education of students in the field of engineering.
  electronic engineering education requirements: Electrical Engineering 101 Darren Ashby, 2011-10-13 Electrical Engineering 101 covers the basic theory and practice of electronics, starting by answering the question What is electricity? It goes on to explain the fundamental principles and components, relating them constantly to real-world examples. Sections on tools and troubleshooting give engineers deeper understanding and the know-how to create and maintain their own electronic design projects. Unlike other books that simply describe electronics and provide step-by-step build instructions, EE101 delves into how and why electricity and electronics work, giving the reader the tools to take their electronics education to the next level. It is written in a down-to-earth style and explains jargon, technical terms and schematics as they arise. The author builds a genuine understanding of the fundamentals and shows how they can be applied to a range of engineering problems. This third edition includes more real-world examples and a glossary of formulae. It contains new coverage of: - Microcontrollers - FPGAs - Classes of components - Memory (RAM, ROM, etc.) - Surface mount - High speed design - Board layout - Advanced digital electronics (e.g. processors) - Transistor circuits and circuit design - Op-amp and logic circuits - Use of test equipment - Gives readers a simple explanation of complex concepts, in terms they can understand and relate to everyday life. - Updated content throughout and new material on the latest technological advances. - Provides readers with an invaluable set of tools and references that they can use in their everyday work.
  electronic engineering education requirements: What Every Electrical Engineering Student Must Know Ali Alqaraghuli, 2020-09-18 A step-by-step guide for electrical engineering students.
  electronic engineering education requirements: Engineering Technology Education in the United States National Academy of Engineering, Committee on Engineering Technology Education in the United States, 2017-01-27 The vitality of the innovation economy in the United States depends on the availability of a highly educated technical workforce. A key component of this workforce consists of engineers, engineering technicians, and engineering technologists. However, unlike the much better-known field of engineering, engineering technology (ET) is unfamiliar to most Americans and goes unmentioned in most policy discussions about the US technical workforce. Engineering Technology Education in the United States seeks to shed light on the status, role, and needs of ET education in the United States.
  electronic engineering education requirements: Devices: Theory , 2006
  electronic engineering education requirements: Introduction to Engineering W. Lionel Craver, Darrell C. Schroder, Anthony J. Tarquin, 1987 A survey of the typical curricula for engineering students, this comprehensive text provides a broad yet depth coverage of Engineering. Concise and structured, the text offers instructors the flexibility to choose and emphasize certain topics within the course. Each author is an expert in adifferent branch of engineering-electrical engineering, civil engineering, and mechanical engineering.
  electronic engineering education requirements: Electrical Engineer's Reference Book M A Laughton, M G Say, 2013-10-22 Electrical Engineer's Reference Book, Fourteenth Edition focuses on electrical engineering. The book first discusses units, mathematics, and physical quantities, including the international unit system, physical properties, and electricity. The text also looks at network and control systems analysis. The book examines materials used in electrical engineering. Topics include conducting materials, superconductors, silicon, insulating materials, electrical steels, and soft irons and relay steels. The text underscores electrical metrology and instrumentation, steam-generating plants, turbines and diesel plants, and nuclear reactor plants. The book also discusses alternative energy sources. Concerns include wind, geothermal, wave, ocean thermal, solar, and tidal energy. The text then looks at alternating-current generators. Stator windings, insulation, output equation, armature reaction, and reactants and time-constraints are described. The book also examines overhead lines, cables, power transformers, switchgears and protection, supply and control of reactive power, and power systems operation and control. The text is a vital source of reference for readers interested in electrical engineering.
  electronic engineering education requirements: Electromagnetics Steven Ellingson, 2019-12-13
  electronic engineering education requirements: Op Amps for Everyone Ron Mancini, 2003 The operational amplifier (op amp) is the most versatile and widely used type of analog IC, used in audio and voltage amplifiers, signal conditioners, signal converters, oscillators, and analog computing systems. Almost every electronic device uses at least one op amp. This book is Texas Instruments' complete professional-level tutorial and reference to operational amplifier theory and applications. Among the topics covered are basic op amp physics (including reviews of current and voltage division, Thevenin's theorem, and transistor models), idealized op amp operation and configuration, feedback theory and methods, single and dual supply operation, understanding op amp parameters, minimizing noise in op amp circuits, and practical applications such as instrumentation amplifiers, signal conditioning, oscillators, active filters, load and level conversions, and analog computing. There is also extensive coverage of circuit construction techniques, including circuit board design, grounding, input and output isolation, using decoupling capacitors, and frequency characteristics of passive components. The material in this book is applicable to all op amp ICs from all manufacturers, not just TI. Unlike textbook treatments of op amp theory that tend to focus on idealized op amp models and configuration, this title uses idealized models only when necessary to explain op amp theory. The bulk of this book is on real-world op amps and their applications; considerations such as thermal effects, circuit noise, circuit buffering, selection of appropriate op amps for a given application, and unexpected effects in passive components are all discussed in detail. *Published in conjunction with Texas Instruments *A single volume, professional-level guide to op amp theory and applications *Covers circuit board layout techniques for manufacturing op amp circuits.
  electronic engineering education requirements: Lead-Acid Batteries: Science and Technology D. Pavlov, 2011-05-31 Lead-Acid Batteries: Science and Technology presents a comprehensive overview of the theory of the technological processes of lead-acid battery manufacture and their influence on battery performance parameters. It summarizes the current knowledge about the technology of lead-acid battery production and presents it in the form of an integral theory. This theory is supported by ample illustrative material and experimental data, thus allowing technologists and engineers to control the technological processes in battery plants and providing university lecturers with a toll for clear and in-depth presentation of the technology of lead-acid battery production in their courses. The relationship between the technological processes and the performance characteristics of the batteries is disclosed too. - Disclosure of the structures of the lead and lead dioxide active masses, ensuring reversibility of the processes during charge and discharge and thus long cycle life of the battery - Proposal of optimum conditions for individual technological processes which would yield appropriate structures of the lead and lead dioxide active masses - Disclosure of the influence of H2SO4 concentration on battery performance parameters - Discussion of the processes involved in the closed oxygen cycle in VRLAB and the thermal phenomena leading to thermal runaway (TRA) - Elucidation of the relationship between technology of battery manufacture and battery capacity and cycle life performance
  electronic engineering education requirements: Engineering Education John Heywood, 2005-12-12 A synthesis of nearly 2,000 articles to help make engineers better educators While a significant body of knowledge has evolved in the field of engineering education over the years, much of the published information has been restricted to scholarly journals and has not found a broad audience. This publication rectifies that situation by reviewing the findings of nearly 2,000 scholarly articles to help engineers become better educators, devise more effective curricula, and be more effective leaders and advocates in curriculum and research development. The author's first objective is to provide an illustrative review of research and development in engineering education since 1960. His second objective is, with the examples given, to encourage the practice of classroom assessment and research, and his third objective is to promote the idea of curriculum leadership. The publication is divided into four main parts: Part I demonstrates how the underpinnings of education—history, philosophy, psychology, sociology—determine the aims and objectives of the curriculum and the curriculum's internal structure, which integrates assessment, content, teaching, and learning Part II focuses on the curriculum itself, considering such key issues as content organization, trends, and change. A chapter on interdisciplinary and integrated study and a chapter on project and problem-based models of curriculum are included Part III examines problem solving, creativity, and design Part IV delves into teaching, assessment, and evaluation, beginning with a chapter on the lecture, cooperative learning, and teamwork The book ends with a brief, insightful forecast of the future of engineering education. Because this is a practical tool and reference for engineers, each chapter is self-contained and may be read independently of the others. Unlike other works in engineering education, which are generally intended for educational researchers, this publication is written not only for researchers in the field of engineering education, but also for all engineers who teach. All readers acquire a host of practical skills and knowledge in the fields of learning, philosophy, sociology, and history as they specifically apply to the process of engineering curriculum improvement and evaluation.
  electronic engineering education requirements: Engineering Education and Practice in the United States National Research Council, Division on Engineering and Physical Sciences, Commission on Engineering and Technical Systems, Committee on the Education and Utilization of the Engineer, 1985-01-01 Both sides of the engineering equationâ€education and utilizationâ€are studied in this unique volume. A brief discussion of the development of engineering in the United States is followed by an examination of the status of engineering today. A specially developed flow diagram, which defines all aspects of the current engineering community, demonstrates how the profession adapts and responds to change. The book then takes a critical look at the strengths and weaknesses of current engineering and evaluates major trends in the composition of the engineering work force. The final section offers a preview of engineering and its environment in the year 2000. Companion volumes in the Engineering Education and Practice in the United States series listed below discuss specific issues in engineering education.
  electronic engineering education requirements: A Degree in a Book: Electrical And Mechanical Engineering David Baker, 2021-05-01 A concise introduction to all the key tenets of electrical and mechanical engineering degree course, written by former NASA engineer Dr David Baker. A Degree in a Book: Electrical and Mechanical Engineering is presented in an attractive landscape format in full-color. With timelines, feature spreads and information boxes, readers will quickly get to grips with the fundamentals of electrical and mechanical engineering and their practical applications. Covering Newtonian mechanics, nuclear engineering, artificial intelligence, 3D printing and more, this essential guide brings clarity to complex ideas. David Baker delves into the history and development of this far-reaching subject as well as the challenges of the future such as environmental responsibility. Complete with a useful glossary of key terms, this holistic introduction will equip students and laypeople alike with the knowledge of an engineering graduate. ABOUT THE SERIES: Get the knowledge of a degree for the price of a book with Arcturus Publishing's A Degree in a Book series. Written by experts in their fields, these highly visual guides feature handy timelines, information boxes, feature spreads and margin annotations, allowing readers to get to grips with complex subjects in no time.
  electronic engineering education requirements: Contributions to Higher Engineering Education Maria M. Nascimento, Gustavo R. Alves, Eva Virgínia Araújo Morais, 2018-05-17 The book focuses on teaching knowledge and principles (Higher Education) regarding professional practice of engineering (life and lifelong learning). It covers recent developments in engineering education. This book comprises the select proceedings of the conference organised by the Portuguese Society for Engineering Education. This book goes beyond the examination of the economic, culture, and social factors, which influence the education of engineers in different higher education institutions, and encompasses critical thinking and problem solving, communication, collaboration and creativity and innovation. These are essential components of engineering education. The contents of this book are useful to researchers and professionals engaged in the re-engineering of engineering education.
  electronic engineering education requirements: Engineering Education and Management Liangchi Zhang, Chunliang Zhang, 2011-11-25 This is the proceedings of the selected papers presented at 2011 International Conference on Engineering Education and Management (ICEEM2011) held in Guangzhou, China, during November 18-20, 2011. ICEEM2011 is one of the most important conferences in the field of Engineering Education and Management and is co-organized by Guangzhou University, The University of New South Wales, Zhejiang University and Xi’an Jiaotong University. The conference aims to provide a high-level international forum for scientists, engineers, and students to present their new advances and research results in the field of Engineering Education and Management. This volume comprises 122 papers selected from over 400 papers originally submitted by universities and industrial concerns all over the world. The papers specifically cover the topics of Management Science and Engineering, Engineering Education and Training, Project/Engineering Management, and Other related topics. All of the papers were peer-reviewed by selected experts. The papers have been selected for this volume because of their quality and their relevancy to the topic. This volume will provide readers with a broad overview of the latest advances in the field of Engineering Education and Management. It will also constitute a valuable reference work for researchers in the fields of Engineering Education and Management.
  electronic engineering education requirements: Artificial Intelligence Cherry Bhargava, Pradeep Kumar Sharma, 2021-07-28 This comprehensive reference text discusses the fundamental concepts of artificial intelligence and its applications in a single volume. Artificial Intelligence: Fundamentals and Applications presents a detailed discussion of basic aspects and ethics in the field of artificial intelligence and its applications in areas, including electronic devices and systems, consumer electronics, automobile engineering, manufacturing, robotics and automation, agriculture, banking, and predictive analysis. Aimed at senior undergraduate and graduate students in the field of electrical engineering, electronics engineering, manufacturing engineering, pharmacy, and healthcare, this text: Discusses advances in artificial intelligence and its applications. Presents the predictive analysis and data analysis using artificial intelligence. Covers the algorithms and pseudo-codes for different domains. Discusses the latest development of artificial intelligence in the field of practical speech recognition, machine translation, autonomous vehicles, and household robotics. Covers the applications of artificial intelligence in fields, including pharmacy and healthcare, electronic devices and systems, manufacturing, consumer electronics, and robotics.
  electronic engineering education requirements: Fundamentals of Electronic Engineering Rajendra Prasad, 2012-01-03 Fundamentals of Electronic Engineering fulfills the requirements of a textbook on basic electronic engineering, a core course for undergraduate engineering students of all branches. The book deals with fundamental concepts and principles of the subject. Concepts and theories are properly explained and illustrated with examples in this book. Three complete chapters deal with the digital systems including microprocessors, microcomputers, minicomputers, and microcontrollers. The book includes a chapter on analogue, digital, and optical communication systems.
  electronic engineering education requirements: Projecting Science and Engineering Personnel Requirements for the 1990s United States. Congress. House. Committee on Science, Space, and Technology. Subcommittee on Investigations and Oversight, 1993
  electronic engineering education requirements: Health Professions Education Institute of Medicine, Board on Health Care Services, Committee on the Health Professions Education Summit, 2003-07-01 The Institute of Medicine study Crossing the Quality Chasm (2001) recommended that an interdisciplinary summit be held to further reform of health professions education in order to enhance quality and patient safety. Health Professions Education: A Bridge to Quality is the follow up to that summit, held in June 2002, where 150 participants across disciplines and occupations developed ideas about how to integrate a core set of competencies into health professions education. These core competencies include patient-centered care, interdisciplinary teams, evidence-based practice, quality improvement, and informatics. This book recommends a mix of approaches to health education improvement, including those related to oversight processes, the training environment, research, public reporting, and leadership. Educators, administrators, and health professionals can use this book to help achieve an approach to education that better prepares clinicians to meet both the needs of patients and the requirements of a changing health care system.
  electronic engineering education requirements: Nanoelectronics and Photonics Anatoli Korkin, Federico Rosei, 2008-09-23 Nanoelectronics and Photonics provides a fundamental description of the core elements and problems of advanced and future information technology. The authoritative book collects a series of tutorial chapters from leaders in the field covering fundamental topics from materials to devices and system architecture, and bridges the fundamental laws of physics and chemistry of materials at the atomic scale with device and circuit design and performance requirements.
  electronic engineering education requirements: Electronic Communication Equipment United States. Department of Defense, 1964
  electronic engineering education requirements: The Art of Electronics Paul Horowitz, Winfield Hill, 2021
  electronic engineering education requirements: Developments in Engineering Education Standards: Advanced Curriculum Innovations Rasul, Mohammad, 2012-04-30 SUMMARY.
  electronic engineering education requirements: NASA EP. United States. National Aeronautics and Space Administration, 1968
  electronic engineering education requirements: Words Their Way Donald R. Bear, Marcia Invernizzi, Shane Templeton, Francine R. Johnston, 2012 Words Their Way is a hands-on, developmentally driven approach to word study that illustrates how to integrate and teach children phonics, vocabulary, and spelling skills. This fifth edition features updated activities, expanded coverage of English learners, and emphasis on progress monitoring.
  electronic engineering education requirements: Academic Majors Handbook with General Information ... United States Air Force Academy United States Air Force Academy, 1988
  electronic engineering education requirements: Integrated Electronics: Analog and Digital Circuits and Systems Millman Jacob, Millman & Halkias, Christos C. Halkias, 1972
  electronic engineering education requirements: Scientific Personnel Bulletin , 1949
  electronic engineering education requirements: The Assessment of Learning in Engineering Education John Heywood, 2016-03-14 Explores how we judge engineering education in order to effectively redesign courses and programs that will prepare new engineers for various professional and academic careers Shows how present approaches to assessment were shaped and what the future holds Analyzes the validity of teaching and judging engineering education Shows the integral role that assessment plays in curriculum design and implementation Examines the sociotechnical system’s impact on engineering curricula
  electronic engineering education requirements: Aerospace Bibliography National Aerospace Education Council (U.S.), 1968
  electronic engineering education requirements: Modernizing China’s Undergraduate Engineering Education Through Systemic Reforms Tengteng Zhuang, 2023-10-28 This book examines the comprehensive engineering education reform since China put forward its New Engineering Education policy in early 2017. It presents systematic reform measures at micro-level, such as national policies on massively building up new programs that cater to emerging state-of-the-art technologies in the industry, on developing synergistic approaches to education through tightened university–industry collaboration, and on formulating the four-level quality assurance mechanisms. The book also addresses meso-level institutional schemes and implementations at several case universities researched, and micro-level issues directly regarding teaching and student learning based on empirical studies. Overall, this book provides the international community the knowledge of how international benchmarking of university engineering education is reflected in the Chinese context, and helps readers to gain an understanding the success and failure of different practices in achieving relevant reform goals.
  electronic engineering education requirements: Guide to the evaluation of educational experience in the Armed Service 76 American Council on Education, 1977
  electronic engineering education requirements: Handbook of Research on Biomedical Engineering Education and Advanced Bioengineering Learning: Interdisciplinary Concepts Abu-Faraj, Ziad O., 2012-02-29 Description based on: v. 2, copyrighted in 2012.
Electronics - Wikipedia
Electronics is a scientific and engineering discipline that studies and applies the principles of physics to design, create, and operate devices that manipulate electrons and other electrically …

Electronics | Devices, Facts, & History | Britannica
Apr 17, 2025 · electronics, branch of physics and electrical engineering that deals with the emission, behaviour, and effects of electrons and with electronic devices. Electronics …

ELECTRONIC Definition & Meaning - Merriam-Webster
The meaning of ELECTRONIC is of or relating to electrons. How to use electronic in a sentence.

ELECTRONIC | English meaning - Cambridge Dictionary
ELECTRONIC definition: 1. (especially of equipment), using, based on, or used in a system of operation that involves the…. Learn more.

Basic Electronics: Introduction for Beginners
Oct 5, 2024 · Electronics is the study of electrical circuits consisting of active electrical components such as transistors, diodes, integrated circuits (IC), vacuum tubes, silicon …

Electronics for beginners: A simple introduction - Explain that Stuff
Dec 5, 2022 · Electronics is a much more subtle kind of electricity in which tiny electric currents (and, in theory, single electrons) are carefully directed around much more complex circuits to …

Electronic vs. Electronical — What’s the Difference?
Mar 15, 2024 · "Electronic" relates to devices or systems using electrical components to function, while "electronical" is an uncommon and often incorrect variation of "electronic."

Electronic - definition of electronic by The Free Dictionary
1. of or pertaining to electronics or to devices, circuits, or systems developed through electronics. 2. of or pertaining to electrons or to an electron. 3. (of a musical instrument) using electric or …

Home | Electronic Design
Electronic Design Today offers up to date coverage of the Electronics Industry. This eNewsletter is delivered five days a week. (Daily) Highlighting new products for the electronic design...

Electronics - Simple English Wikipedia, the free encyclopedia
Electronics is the study of electricity (the flow of electrons) and how to use that to build things like computers. It uses circuits that are made with parts called components and connecting wires …

Electronics - Wikipedia
Electronics is a scientific and engineering discipline that studies and applies the principles of physics to design, create, and operate devices that manipulate electrons and other electrically …

Electronics | Devices, Facts, & History | Britannica
Apr 17, 2025 · electronics, branch of physics and electrical engineering that deals with the emission, behaviour, and effects of electrons and with electronic devices. Electronics …

ELECTRONIC Definition & Meaning - Merriam-Webster
The meaning of ELECTRONIC is of or relating to electrons. How to use electronic in a sentence.

ELECTRONIC | English meaning - Cambridge Dictionary
ELECTRONIC definition: 1. (especially of equipment), using, based on, or used in a system of operation that involves the…. Learn more.

Basic Electronics: Introduction for Beginners
Oct 5, 2024 · Electronics is the study of electrical circuits consisting of active electrical components such as transistors, diodes, integrated circuits (IC), vacuum tubes, silicon-controlled rectifiers …

Electronics for beginners: A simple introduction - Explain that Stuff
Dec 5, 2022 · Electronics is a much more subtle kind of electricity in which tiny electric currents (and, in theory, single electrons) are carefully directed around much more complex circuits to …

Electronic vs. Electronical — What’s the Difference?
Mar 15, 2024 · "Electronic" relates to devices or systems using electrical components to function, while "electronical" is an uncommon and often incorrect variation of "electronic."

Electronic - definition of electronic by The Free Dictionary
1. of or pertaining to electronics or to devices, circuits, or systems developed through electronics. 2. of or pertaining to electrons or to an electron. 3. (of a musical instrument) using electric or …

Home | Electronic Design
Electronic Design Today offers up to date coverage of the Electronics Industry. This eNewsletter is delivered five days a week. (Daily) Highlighting new products for the electronic design...

Electronics - Simple English Wikipedia, the free encyclopedia
Electronics is the study of electricity (the flow of electrons) and how to use that to build things like computers. It uses circuits that are made with parts called components and connecting wires to …