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Electromagnetics and Applications, Spring 2009
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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
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Staelin, David
Date Added:
01/01/2009
Electromechanical Dynamics, Spring 2009
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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
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Woodson, Herbert H.
Date Added:
01/01/2009
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:
Delft University OpenCourseWare
Author:
K.A.A. Makinwa
Date Added:
02/08/2016
Electronic Power Conversion
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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:
Delft University OpenCourseWare
Author:
J. Popovic
Date Added:
02/09/2016
Electronics
Unrestricted Use
CC BY
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Electronics is the study of the flow of charge through various materials and devices such as, semiconductors, resistors, inductors, capacitors, nano-structures, and vacuum tubes. All applications of electronics involve the transmission of power and possibly information. Although considered to be a theoretical branch of physics, the design and construction of electronic circuits to solve practical problems is an essential technique in the fields of electronic engineering and computer engineering.

The study of new semiconductor devices and surrounding technology is sometimes considered a branch of physics. This module focuses on engineering aspects of electronics. Other important topics include electronic waste and occupational health impacts of semiconductor manufacturing.

This course of electronics is intended for students enrolling for pre-service and in-service students registering for BSc with Education and BEd degrees. As you may be aware, Electronics forms one the back bone of modern physics. The module has six units: Diode Circuits; Transistor Circuits; Operational Amplifiers; Digital Circuits; Data acquisition and Process Control; and Computers and Device Interconnection.

In the first unit/activity i.e. diodes circuits, students are expected to explain charge carrier generation, intrinsic and extrinsic semi-conductors, formation and application of P-N junction, and to design and analyse diode circuits (e.g, power supply circuits).

In the second unit/activity i.e. Transistor circuits, the student is expected to explain how a Bipolar Junction Transistor (BJT) works; Design and analyse basic BJT circuits in various configurations (CE, EB, CB); Explain how a junction Field Effect Transistor (JFET) works ; Design and analyse JFET circuits in both configurations (CD, CS); Explain how MOSFET works and also be able to Design and analyse MOSFET circuits.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Module
Provider:
African Virtual University
Provider Set:
OER@AVU
Author:
Sam Kinyera Obwoya
Date Added:
03/13/2018
Elektronische Signaalbewerking
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CC BY-NC-SA
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Na het behalen van dit vak kan de student:

filter-overdrachtsfuncties middels state-space synthese afbeelden op filter-topologieen, deze optimaliseren m.b.t. dynamisch bereik en gevoeligheid voor componenten-variaties en realiseren met behulp van integratoren;
circuits voor integratoren, analoge filters, continue-tijd filters, en nullors (operationele versterkers) ontwerpen en effecten ten gevolge van niet-ideale componenten en aliasing analyseren

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
Delft University OpenCourseWare
Author:
Dr.ir. W.A. Serdijn
Date Added:
04/25/2019
Embedded Controllers using C and Arduino + Lab Manual
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CC BY-NC-SA
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This text introduces embedded controller systems using the inexpensive and widely available Arduino hardware platform and the C programming language. It is intended for students in Electrical Engineering and Electrical Engineering Technology programs at the Associate and Baccalaureate levels. Unlike many Arduino texts, this text does not rely solely on the Arduino libraries. Rather, it “gets under the hood” and directly accesses I/O ports, pins and DDR, as would be expected in a traditional college level microprocessor/microcontroller course.

The companion laboratory manual introduces embedded controller systems using the Arduino hardware platform and the C programming language. Exercises include usage of seven-segment displays, switches and analog input devices; a reaction timer; PWM; an event counter and an arbitrary waveform generator.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Textbook
Provider:
Mohawk Valley Community College
Author:
James M. Fiore
Date Added:
08/31/2016
Engineering Technology Simulations
Unrestricted Use
CC BY
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This website is a segment of a Department of Labor grant awarded to the Eastern Iowa Community Colleges (EICC) of Clinton, Muscatine, and Scott. These simulations, developed by a local Quad City e-Learning Company Lucid Way (which are approximately from 2-9 minutes long) are used as part of their curriculum to help students quickly and thoroughly grasp the concepts being presented in a visual format.

Learning 3D simulations focus on engineering topics and cover automation & robotics, electrical & motor control, process control or renewable energy. Each simulation can be watched directly from the website, downloaded, or embedded into the online courses This site is managed by: ATEEC. (Source: http://engineertech.org/about/)

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Simulation
Date Added:
05/16/2019
Hands-On Introduction to Electrical Engineering Lab Skills, January (IAP) 2008
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CC BY-NC-SA
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This course introduces students to both passive and active electronic components (op-amps, 555 timers, TTL digital circuits). Basic analog and digital circuits and theory of operation are covered. The labs allow the students to master the use of electronic instruments and construct and/or solder several circuits. The labs also reinforce the concepts discussed in class with a hands-on approach and allow the students to gain significant experience with electrical instruments such as function generators, digital multimeters, oscilloscopes, logic analyzers and power supplies. In the last lab, the students build an electronic circuit that they can keep. The course is geared to freshmen and others who want an introduction to electronics circuits. This course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Gim Hom
Date Added:
01/01/2008
Introduction to Electronics
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The advent of electronics has had a profound impact on our lives and impacted nearly every product that we use either directly or indirectly. Without electronics, present day computers, cell phones, stereos, televisions, and the internet would not be possible. And of course, without computers and modern communications tools, society could not have made the huge strides in fields such as medicine, aerospace technologies, meteorology, transportation, agriculture, education, and many others. It is for these reasons that the invention of the transistor is considered as one of the most important technological advancements in history.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Provider:
Minnesota State Opendora
Author:
Tim Grebner
Date Added:
07/15/2020
Introduction to Nanoelectronics, Spring 2010
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Traditionally, progress in electronics has been driven by miniaturization. But as electronic devices approach the molecular scale, classical models for device behavior must be abandoned. To prepare for the next generation of electronic devices, this class teaches the theory of current, voltage and resistance from atoms up. To describe electrons at the nanoscale, we will begin with an introduction to the principles of quantum mechanics, including quantization, the wave-particle duality, wavefunctions and Schrĺ_dinger's equation. Then we will consider the electronic properties of molecules, carbon nanotubes and crystals, including energy band formation and the origin of metals, insulators and semiconductors. Electron conduction will be taught beginning with ballistic transport and concluding with a derivation of Ohm's law. We will then compare ballistic to bulk MOSFETs. The class will conclude with a discussion of possible fundamental limits to computation.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Information Science
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Baldo, Marc
Date Added:
01/01/2010
Introduction to Radar Systems, Spring 2007
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This set of 10 lectures (about 11+ hours in duration) was excerpted from a three-day course developed at MIT Lincoln Laboratory to provide an understanding of radar systems concepts and technologies to military officers and DoD civilians involved in radar systems development, acquisition, and related fields. That three-day program consists of a mixture of lectures, demonstrations, laboratory sessions, and tours.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
O'Donnell, Robert M.
Date Added:
01/01/2007
Introduction to the History of Technology, Fall 2006
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This course is an introduction to the consideration of technology as the outcome of particular technical, historical, cultural, and political efforts, especially in the United States during the 19th and 20th centuries. Topics include industrialization of production and consumption, development of engineering professions, the emergence of management and its role in shaping technological forms, the technological construction of gender roles, and the relationship between humans and machines.

Subject:
Arts and Humanities
Career and Technical Education
Electronic Technology
Manufacturing
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Mindell, David
Date Added:
01/01/2006
Introductory Analog Electronics Laboratory, Spring 2007
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CC BY-NC-SA
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Introductory experimental laboratory explores the design, construction, and debugging of analog electronic circuits. Lectures and six laboratory projects investigate the performance characteristics of diodes, transistors, JFETs and op-amps, including the construction of a small audio amplifier and preamplifier. Seven weeks are devoted to the design and implementation of a project in an environment similar to that of engineering design teams in industry. Provides opportunity to simulate real-world problems and solutions that involve tradeoffs and the use of engineering judgment.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Roscoe, Byron
Date Added:
01/01/2007
Lab Manual for Linear Electronics
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CC BY-NC-SA
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This is a laboratory manual covering linear semiconductors, appropriate for students in an Electrical Engineering Technology program (AAS or BS). The exercises begin with basic diodes and progress through NPN and PNP bipolar transistors using various DC biasing forms. AC small signal analysis is encountered next followed by large signal class A and class B analysis. The manual concludes with exercises on JFET biasing and amplifiers.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Textbook
Provider:
Mohawk Valley Community College
Author:
James M. Fiore
Date Added:
04/24/2019
Laboratory Manual for Computer Programming with Python and Multisim
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CC BY-NC-SA
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This lab manual is intended for an introductory programming course for Electrical Engineering and/or Technology students at the AAS and/or BS level. It begins with an introduction to the Multisim (tm) simulation software and progresses to programming using the Python language. Most programming assignments are based on electrical applications.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Textbook
Provider:
Mohawk Valley Community College
Author:
James M. Fiore
Date Added:
04/24/2019
Lessons in Electric Circuits
Read the Fine Print
Some Rights Reserved
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This free electrical engineering textbook provides a series of volumes covering electricity and electronics.

Vol. I - Direct Current (DC)
Chapter 1 - Basic Concepts Of Electricity
Chapter 2 - Ohm's Law
Chapter 3 - Electrical Safety
Chapter 4 - Scientific Notation And Metric Prefixes
Chapter 5 - Series And Parallel Circuits
Chapter 6 - Divider Circuits And Kirchhoff's Laws
Chapter 7 - Series-parallel Combination Circuits
Chapter 8 - DC Metering Circuits
Chapter 9 - Electrical Instrumentation Signals
Chapter 10 - DC Network Analysis
Chapter 11 - Batteries And Power Systems
Chapter 12 - Physics Of Conductors And Insulators
Chapter 13 - Capacitors
Chapter 14 - Magnetism and Electromagnetism
Chapter 15 - Inductors
Chapter 16 - RC and L/R Time Constants

Vol. II - Alternating Current (AC)
Chapter 1 - Basic AC Theory
Chapter 2 - Complex Numbers
Chapter 3 - Reactance and Impedance -- Inductive
Chapter 4 - Reactance And Impedance -- Capacitive
Chapter 5 - Reactance And Impedance -- R, L, And C
Chapter 6 - Resonance
Chapter 7 - Mixed-Frequency AC Signals
Chapter 8 - Filters
Chapter 9 - Transformers
Chapter 10 - Polyphase AC Circuits
Chapter 11 - Power Factor
Chapter 12 - AC Metering Circuits
Chapter 13 - AC Motors
Chapter 14 - Transmission Lines

Vol. III - Semiconductors
Chapter 1 - Amplifiers and Active Devices
Chapter 2 - Solid-state Device Theory
Chapter 3 - Diodes and Rectifiers
Chapter 4 - Bipolar Junction Transistors
Chapter 5 - Junction Field-effect Transistors
Chapter 6 - Insulated-gate Field-effect Transistors
Chapter 7 - Thyristors
Chapter 8 - Operational Amplifiers
Chapter 9 - Practical Analog Semiconductor Circuits
Chapter 10 - Active Filters
Chapter 11 - DC Motor Drives
Chapter 12 - Inverters And AC Motor Drives
Chapter 13 - Electron Tubes

Vol. IV - Digital
Chapter 1 - Numeration Systems
Chapter 2 - Binary Arithmetic
Chapter 3 - Logic Gates
Chapter 4 - Switches
Chapter 5 - Electromechanical Relays
Chapter 6 - Ladder Logic
Chapter 7 - Boolean Algebra
Chapter 8 - Karnaugh Mapping
Chapter 9 - Combinational Logic Functions
Chapter 10 - Multivibrators
Chapter 11 - Sequential Circuits
Chapter 12 - Shift Registers
Chapter 13 - Digital-Analog Conversion
Chapter 14 - Digital Communication
Chapter 15 - Digital Storage (Memory)
Chapter 16 - Principles Of Digital Computing

Vol. V - Reference
Chapter 1 - Useful Equations And Conversion Factors
Chapter 2 - Color Codes
Chapter 3 - Conductor And Insulator Tables
Chapter 4 - Algebra Reference
Chapter 5 - Trigonometry Reference
Chapter 6 - Calculus Reference
Chapter 7 - Using The spice Circuit Simulation Program
Chapter 8 - Troubleshooting -- Theory And Practice
Chapter 9 - Circuit Schematic Symbols
Chapter 10 - Periodic Table Of The Elements

Vol. VI - Experiments
Chapter 1 - Introduction
Chapter 2 - Basic Concepts and Test Equipment
Chapter 3 - DC Circuits
Chapter 4 - AC Circuits
Chapter 5 - Discrete Semiconductor Circuits
Chapter 6 - Analog Integrated Circuits
Chapter 7 - Digital Integrated Circuits
Chapter 8 - 555 Timer Circuits

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Author:
Tony R. Kuphaldt
Date Added:
04/29/2020
Lineaire Schakelingen
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CC BY-NC-SA
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Dit vak gaat over het berekenen van spanningen, stromen en vermogens in elektrische circuits met bronnen, weerstanden, spoelen en condensatoren. In het eerste deel worden de componenten geïntroduceerd en de basisberekeningsmethoden aangeleerd. In het tweede deel worden de technieken uit het eerste deel toegepast op tweede-orde circuits, circuits met sinusvormige spanningen en stromen, magnetisch gekoppelde circuits en vermogenscircuits. Verder is er veel aandacht voor filters, frequentieresponsies, tweepoorten en de Laplace transformatie

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
Delft University OpenCourseWare
Author:
Dr.ir. W.A. Serdijn
Date Added:
04/25/2019
Measuring voltage and current in a DC circuit
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These exercises target student misconceptions about how to properly measure voltage and current in simple DC circuits by letting them investigate different meter arrangements without fear of damaging equipment. These activities also are designed to lead to other investigations about simple DC circuits.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Activity/Lab
Diagram/Illustration
Author:
Susan Ramlo
Date Added:
02/27/2019
Methods and algorithms for system design
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System design is the central topic of this course. We move beyond the methods developed in circuit design (although we shall have interest in those) and consider situations in which the functional behavior of a system is the first object under consideration.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Activity/Lab
Assessment
Full Course
Lecture Notes
Reading
Provider:
Delft University of Technology
Provider Set:
Delft University OpenCourseWare
Author:
T.G.R.M. van Leuken
Date Added:
04/25/2019