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Electrical Troubleshooting: Week 3 Materials
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This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Homework/Assignment
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical Troubleshooting: Week 4 Materials
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CC BY-SA
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This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical Troubleshooting: Week 5 Materials
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CC BY-SA
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This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Homework/Assignment
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical Troubleshooting: Week 6 Materials
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CC BY-SA
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This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Assessment
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical Troubleshooting: Week 7 Materials
Conditional Remix & Share Permitted
CC BY-SA
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0.0 stars

This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Lecture
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical Troubleshooting: Week 8 Materials
Conditional Remix & Share Permitted
CC BY-SA
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0.0 stars

This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical Troubleshooting: Week 9 Materials
Conditional Remix & Share Permitted
CC BY-SA
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0.0 stars

This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Lecture
Provider:
Linn-Benton Community College
Author:
Ken Dickson-Self
Date Added:
07/09/2020
Electrical machines and drives
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CC BY-NC-SA
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The course gives an overview of different types of electrical machines and drives. Different types of mechanica loads are discussed. Maxwell's equations are applied to magnetic circuits including permanent magnets. DC machines, induction machines, synchronous machines, switched reluctance machines, brushless DC machines and single-phase machines are discussed with the power electronic converters used to drive them.Study Goals After following this course the students should have an overview over the different types of electrical machines and the way they are used in drive systems and they should be able to derive equations describing the steady-state performance of these machines

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
H. Polinder
Date Added:
02/08/2016
Electrifying the World
Read the Fine Print
Educational Use
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This lesson introduces students to the fundamental concepts of electricity. This is accomplished by addressing questions such as "How is electricity generated," and "How is it used in every-day life?" The lesson also includes illustrative examples of circuit diagrams to help explain how electricity flows.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Activity/Lab
Lesson Plan
Provider:
TeachEngineering
Provider Set:
TeachEngineering
Author:
Wendy Lin
Date Added:
09/18/2014
Electrocardiograph Building
Read the Fine Print
Educational Use
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Building on concepts taught in the associated lesson, students learn about bioelectricity, electrical circuits and biology as they use deductive and analytical thinking skills in connection with an engineering education. Students interact with a rudimentary electrocardiograph circuit (made by the teacher) and examine the simplicity of the device. They get to see their own cardiac signals and test the device themselves. During the second part of the activity, a series of worksheets, students examine different EKG print-outs and look for irregularities, as is done for heart disease detection.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Activity/Lab
Provider:
TeachEngineering
Provider Set:
TeachEngineering
Author:
James Crawford
Katherine Murray
Leyf Peirce
Mark Remaly
Shayn Peirce
Date Added:
09/18/2014
Electromagnetic Energy: From Motors to Lasers
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CC BY-NC-SA
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This course discusses applications of electromagnetic and equivalent quantum mechanical principles to classical and modern devices. It covers energy conversion and power flow in both macroscopic and quantum-scale electrical and electromechanical systems, including electric motors and generators, electric circuit elements, quantum tunneling structures and instruments. It studies photons as waves and particles and their interaction with matter in optoelectronic devices, including solar cells, displays, and lasers.
The instructors would like to thank Scott Bradley, David Friend, Ta-Ming Shih, and Yasuhiro Shirasaki for helping to develop the course, and Kyle Hounsell, Ethan Koether, and Dmitri Megretski for their work preparing the lecture notes for OCW publication.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Environmental Science
Environmental Studies
Physical Science
Physics
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Bulovic, Vladimir
Gu, Yu
Lang, Jeffrey
Leeb, Steven
Ram, Rajeev
Date Added:
02/01/2011
Electromagnetic Field Theory: A Problem Solving Approach
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This text is an introductory treatment on the junior level for a two-semester electrical engineering course starting from the Coulomb-Lorentz force law on a point charge. The theory is extended by the continuous superposition of solutions from previously developed simpler problems leading to the general integral and differential field laws. Often the same problem is solved by different methods so that the advantages and limitations of each approach becomes clear. Sample problems and their solutions are presented for each new concept with great emphasis placed on classical models of physical phenomena such as polarization, conduction, and magnetization. A large variety of related problems that reinforce the text material are included at the end of each chapter for exercise and homework.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Mathematics
Physical Science
Physics
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Zahn, Markus
Date Added:
02/01/2008
Electromagnetic Fields and Energy
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CC BY-NC-SA
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Published in 1989 by Prentice-Hall, this book is a useful resource for educators and self-learners alike. The text is aimed at those who have seen Maxwell’s equations in integral and differential form and who have been exposed to some integral theorems and differential operators. A hypertext version of this textbook can be found here. An accompanying set of video demonstrations is available below.
These video demonstrations convey electromagnetism concepts. The demonstrations are related to topics covered in the textbook. They were prepared by Markus Zahn, James R. Melcher, and Manuel L. Silva and were produced by the Department of Electrical Engineering and Computer Science at the Massachusetts Institute of Technology.
The purpose of these demonstrations is to make mathematical analysis of electromagnetism take on physical meaning. Based on relatively simple configurations and arrangements of equipment, they make a direct connection between what has been analytically derived and what is observed. They permit the student to observe physically what has been described symbolically. Often presented with a plot of theoretical predictions that are compared to measured data, these demonstrations give the opportunity to test the range of validity of the theory and present a quantitative approach to dealing with the physical world.
The short form of these videos contains the demonstrations only. The long form also presents theory, diagrams, and calculations in support of the demonstrations.
These videos are used in the courses 6.013/ESD.013J and 6.641.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Physical Science
Physics
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Haus, Hermann
Melcher, James
Silva, Manuel
Zahn, Markus
Date Added:
02/01/2008
Electromagnetics and Applications
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This course explores electromagnetic phenomena in modern applications, including wireless and optical communications, circuits, computer interconnects and peripherals, microwave communications and radar, antennas, sensors, micro-electromechanical systems, and power generation and transmission. Fundamentals include quasistatic and dynamic solutions to Maxwell’s equations; waves, radiation, and diffraction; coupling to media and structures; guided waves; resonance; acoustic analogs; and forces, power, and energy.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Physical Science
Physics
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Staelin, David
Date Added:
02/01/2009
Electromagnetics and Applications
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CC BY-NC-SA
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This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, computer interconnects and peripherals, optical fiber links and components, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: quasistatic and dynamic solutions to Maxwell’s equations; waves, radiation, and diffraction; coupling to media and structures; guided and unguided waves; resonance; and forces, power, and energy.
Acknowledgments
The instructors would like to thank Robert Haussman for transcribing into LaTeX the problem set and Quiz 2 solutions.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Physical Science
Physics
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Ippen, Erich
Staelin, David
Zahn, Markus
Date Added:
09/01/2005
Electromechanical Dynamics
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First published in 1968 by John Wiley and Sons, Inc., Electromechanical Dynamics discusses the interaction of electromagnetic fields with media in motion. The subject combines classical mechanics and electromagnetic theory and provides opportunities to develop physical intuition. The book uses examples that emphasize the connections between physical reality and analytical models. Types of electromechanical interactions covered include rotating machinery, plasma dynamics, the electromechanics of biological systems, and magnetoelasticity.
An accompanying solutions manual for the problems in the text is provided.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Physical Science
Physics
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Melcher, James
Woodson, Herbert
Date Added:
02/01/2009
Electronic Feedback Systems
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CC BY-NC-SA
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Feedback control is an important technique that is used in many modern electronic and electromechanical systems. The successful inclusion of this technique improves performance, reliability, and cost effectiveness of many designs. In this series of lectures we introduce the analytical concepts that underlie classical feedback system design. The application of these concepts is illustrated by a variety of experiments and demonstration systems. The diversity of the demonstration systems reinforces the value of the analytic methods.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Full Course
Provider Set:
MIT OpenCourseWare
Author:
Roberge, James
Date Added:
02/01/2013
Electronic Instrumentation
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This course is a basic course on Instrumentation and Measurement. Firstly, the detection limit in a typical instrument for measurement of an electrical quantity is determined for: offset, finite common-mode rejection, noise and interference. The dominant source of uncertainty is identified and the equivalent input voltage/current sources are calculated. Secondly, the measurement of a non-electrical quantity is discussed. In this case the detection limit should be expressed in terms of the non-electrical input parameter of interest. Issues discussed are: (cross-)sensitivities in frequently used transduction effects, non-electrical source loading and noise in the non-electrical signal domain. Coupled domain formal modeling is subsequently introduced to facilitate analytical multi-domain system analysis. Finally, the detection limit in typical applications in the mechanical, thermal, optical and magnetic signal domain are analysed, along with circuit and system techniques to maximize overall system detectivity.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
K.A.A. Makinwa
Date Added:
02/08/2016
Electronic Power Conversion
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CC BY-NC-SA
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This course is an introduction to power electronics. First the principles of power conversion with switching circuits are treated as well as main applications of power electronics. Next the basic circuits of power electronics are explained, including ac-dc converters (diode rectifiers), dc-dc converters (non-isolated and isolated) and dc-ac converters (inverters). Related issues such as pulse width modulation, methods of analysis, voltage distortion and power quality are treated in conjunction with the basic circuits. The main principles of operation of most commonly used power semiconductor switches are explained. Finally, the role of power electronics in sustainable energy future, including renewable energy systems and energy efficiency is discussed.

Study Goals
To get acquainted with applications of power electronics, to obtain insight in the principles of power electronics, to get an overview of power electronic circuits and be able to select appropriate circuits for specific applications and finally to be able to analyse the circuits. The focus in the course is on analysis and to a lesser extent on design.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
J. Popovic
Date Added:
02/09/2016
Electronics/Avionics
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CC BY-NC
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This program prepares students for a career in electronics with a focus on aerospace avionics. Students learn to design, build, repair, calibrate, and modify electrical components, circuitry controls, and machinery such as industrial controls, transmitters, and antennas for aircraft.

These course modules and materials are designed for a one-year certificate in electronics/avionics in a hybrid on-line format with students participating in a hands-on, face-to-face lab. The materials are comprehensive, developed using the principles of Universal Design, and include course objectives, syllabi, lab exercises, videos, tests, and booklets. Course content includes an introduction to avionics, AC and DC, Digital Logic, aerospace fiber optics, related lab exercises, and student workbooks and textbooks.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Full Course
Provider:
Air Washington
Date Added:
01/01/2014