Contents
- SECTION I: Sensors, Nanoscience, and Instruments
- Sensors
- Introduction
- Electrochemical Sensors
- The Stannic Oxide Semiconductor Gas Sensor
- An Introduction to Multi-Sensor Data Fusion
- Magneto-optics
- Materials and nanoscience.
- Carbon Nanotubes
- Modeling MEMS and NEMS
- Micro mechatronics
- Nano computers, nano-architectonics, and nano-ICs
- Semiconductor Nanoelectronics and Nano-optoelectronics
- Instruments and measurements
- Electrical Equipment in Hazardous Areas
- Portable instruments and systems
- G (LabVIEWTM) Software Engineering
- Reliability Engineering
- SECTION II Biomedical Systems
- Bioelectricity
- Neuroelectric Principles
- Bioelectric Events
- Biological Effects and Electromagnetic Fields
- Embedded Signal Processing
- Biomedical Sensors
- Bioelectronics and instruments
- The Electroencephalogram
- The Electrocardiograph
- Tomography
- Section III—Mathematics, Symbols, and Physical Constants
- Introduction
- Greek Alphabet
- International System of Units (SI)
- Conversion Constants and Multipliers
- Physical Constants
- Symbols and terminology for physical and chemical quantities
- Credits
- Probability for Electrical and Computer Engineers
- Indexes
Preface
The purpose of The Electrical Engineering Handbook, third Edition, is to serve as a reference for practicing engineers in industry, government, and academia, as well as a resource for engineering college students.
The 0.33 version has a new appearance and comprises six volumes: Circuits, Signals, and Speech and Image Processing Electronics; Power Electronics; Optoelectronics; Microwaves; Electromagnetics and Radar Sensors; Nanoscience; Biomedical Engineering; and Instruments. Broadcasting and optical communication technologies Computers, software engineering, and digital devices Systems, controls, embedded systems, energy, and machines Richard Dorf assists in editing each section, which provides a thorough overview of the various aspects of electrical engineering, featuring articles from global contributors.
The purpose is to offer the most up-to-date records within the classical fields of circuits, signal processing, electronics, electromagnetic fields, energy devices, structures, and electric outcomes and devices, whilst protecting the rising fields of communications, nanotechnology, biometrics, virtual devices, laptop engineering, structures, and biomedical engineering. In addition, a complete compendium of records concerning bodily, chemical, and substance data, in addition to extensively inclusive information on arithmetic, is covered in every extent.
We have completely revised or updated numerous articles from this volume and the previous five volumes to meet today’s needs, and we’ve added numerous new chapters.
The cause of this extent (sensors, nanoscience, biomedical engineering, and instruments) is to offer a reference to subjects within the fields of sensors, substances and nanoscience, devices and measurements, and biomedical structures and devices.
Here, we provide the fundamental records necessary for expertise in these fields. We also provide information on emerging fields such as sensors, nanotechnologies, and organic outcomes. Organization The organization divides the records into three sections.
The first two sections embody 10 chapters, and the remaining phase summarizes the relevant arithmetic, symbols, and bodily constants.
The majority of articles fall into three crucial and useful categories: definitions, references, and records. Key definitions serve as defining phrases, and boldface within the text indicates the first occurrence of each defined time period.
Every bankruptcy or article concludes with a summary of those definitions.
The references offer a list of beneficial books and articles for follow-up reading.
Finally, in addition, records afford a few trendy and beneficial reasserts of extra records on the subject.
Locating Your Topic There are numerous ways to access records.
The book’s front provides a comprehensive table of contents. Additionally, each phase is preceded by a person’s table of contents.
Finally, each bankruptcy begins with its own table of contents. The reader must peruse those tables of contents to come to be acquainted with the structure, organization, and content material of the book. For example, see Section II: Biomedical Systems, then Chapter 7: Bioelectricity, after which Chapter 7.2: Bioelectric Events.
This tree-and-department desk of contents allows the reader to move up the tree to find records on the subject of interest.
We have compiled two indexes, the situation index and the index of contributing authors, to provide multiple methods of accessing records.
You can also search for condemnations using the situation index.
The situation index virtually identifies the web page where the definition appears for each key time period.
The third edition of the Electrical Engineering Handbook aims to provide answers to a wide range of questions and guide the reader towards further clarification and reference. We hope that people will frequently reference this manual and effectively meet their informational needs.
Acknowledgments This manual is a testament to the determination of the Board of Advisors, the publishers, and my editorial associates. I am especially eager to gain recognition at Taylor & Francis. Nora Konopka, Publisher; Helena Redshaw, Editorial Project Development Manager; and Susan Fox, Project Editor. Finally, I am indebted to the support of Elizabeth Spangenberger, Editorial Assistant.
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