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Microelectronic Devices and Circuits, Fall 2009
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" 6.012 is the header course for the department's "Devices, Circuits and Systems" concentration. The topics covered include modeling of microelectronic devices, basic microelectronic circuit analysis and design, physical electronics of semiconductor junction and MOS devices, relation of electrical behavior to internal physical processes, development of circuit models, and understanding the uses and limitations of various models. The course uses incremental and large-signal techniques to analyze and design bipolar and field effect transistor circuits, with examples chosen from digital circuits, single-ended and differential linear amplifiers, and other integrated circuits."

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:
Fonstad Jr, Clifton
Date Added:
01/01/2009
Microelectronic Devices and Circuits, Spring 2009
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CC BY-NC-SA
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" 6.012 is the header course for the department's "Devices, Circuits and Systems" concentration. The topics covered include: modeling of microelectronic devices, basic microelectronic circuit analysis and design, physical electronics of semiconductor junction and metal-on-silicon (MOS) devices, relation of electrical behavior to internal physical processes, development of circuit models, and understanding the uses and limitations of various models. The course uses incremental and large-signal techniques to analyze and design bipolar and field effect transistor circuits, with examples chosen from digital circuits, single-ended and differential linear amplifiers, and other integrated circuits."

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:
Hoyt, Judy
Kong, Jing
Sodini, Charles
del Alamo, Jes
Date Added:
01/01/2009
Modeling and Simulation of Dynamic Systems, Fall 2006
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Mathematical modeling of complex engineering systems at a level of detail compatible with the design and implementation of modern control systems. Wave-like and diffusive energy transmission systems. Multiport energy storing fields and dissipative fields; consequences of symmetry and asymmetry. Nonlinear mechanics and canonical transformation theory. Examples will include mechanisms, electromechanical transducers, electronic systems, fluid systems, thermal systems, compressible flow processes, chemical processes. This course models multi-domain engineering systems at a level of detail suitable for design and control system implementation. Topics include network representation, state-space models; multi-port energy storage and dissipation, Legendre transforms; nonlinear mechanics, transformation theory, Lagrangian and Hamiltonian forms; and control-relevant properties. Application examples may include electro-mechanical transducers, mechanisms, electronics, fluid and thermal systems, compressible flow, chemical processes, diffusion, and wave transmission.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Hogan, Neville
Date Added:
01/01/2006
Music and Technology: Live Electronics Performance Practices, Spring 2011
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CC BY-NC-SA
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This course is a creative, hands-on exploration of contemporary and historical approaches to live electronics performance and improvisation, including basic analog instrument design, computer synthesis programming, and hardware and software interface design.

Subject:
Arts and Humanities
Career and Technical Education
Electronic Technology
Performing Arts
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Ariza, Christopher
Date Added:
01/01/2011
Open Signals and Systems Laboratory Exercises
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CC BY-NC
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Open Signals and Systems Laboratory Exercises is a collection of lab assignments that have been used in EE 224: Signals and Systems I in the Department of Electrical and Computer Engineering at Iowa State University. These lab exercises have been curated, edited, and presented in a consistent format to improve student learning.

Table of Contents
MATLAB Basics
Tuning Forks
Impulse Response and Auralization
Frequency Response: Notch and Bandpass Filters
Fourier Series
Introduction to Digital Images
Filtering Digital Images

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Textbook
Author:
Iowa State University
Julie A. Dickerson
Andrew K. Bolstad
Date Added:
10/25/2021
A Person-Centered Guide to Demystifying Technology: Working together to observe, question, design, prototype, and implement/reject technology in support of people's valued beings and doings
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With special contributions by Betty Bayer, Henry Grob, Sara Rasmussen, Dinesh Rathi, Stephanie Shallcross, and Vandana Singh.

Digital technologies old and new are not objects that can be packed inside a box. They are a seamless, indivisible combination of people, organizations, policies, economies, histories, cultures, knowledge, and material things that are continuously shaped and reshaped. Every one of us innovates-in-use our everyday technologies, we just do not always know it. Not only are we shaped by the networked information tools in our midst, but we shape them and thereby shape others. For us to advance individual agency across diverse community knowledge and cultural wealth within the fabric of communities, we need to nurture our cognitive, socio-emotional, information, and progressive community engagement skills along with, and sometimes in advance of, our technical skills which then serve as just-in-time in-fill learning. This is the call placed by Rev. Dr. Martin Luther King, Jr. – to rapidly shift from a ‘thing-oriented’ society to a ‘person-oriented’ society.

In support of this shift, each session of the book begins first with a social chapter with background knowledge probe, conceptual introductions, and a lesson plan for the session. A technical chapter follows with technical introductions and hands-on activities, and a concluding wrap up and comprehension check. The technical of the Orange Unit especially focuses on electronics and physical computer components; the Blue Unit highlights software through a series of introductory programming activities, with possibilities for alternate pathways for those who bring in some existing programming experience; the Rainbow Unit then brings the hardware and software together into networked systems, concluding with a final design adventure.

Subject:
Career and Technical Education
Electronic Technology
Social Science
Material Type:
Textbook
Provider:
University of Illinois
Provider Set:
Illinois Open Publishing Network
Author:
Martin Wolske
Date Added:
10/26/2023
Photovoltaic Solar Energy Systems, Fall 2004
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CC BY-NC-SA
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This class will study the behavior of photovoltaic solar energy systems, focusing on the behavior of "stand-alone" systems. The design of stand-alone photovoltaic systems will be covered. This will include estimation of costs and benefits, taking into account any available government subsidies. Introduction to the hardware elements and their behavior will be included.

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:
Bucciarelli, Louis
Date Added:
01/01/2004
Practical Electronics, Fall 2004
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CC BY-NC-SA
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You can build a wide range of practical electronic devices if you understand a few basic electronics concepts and follow some simple rules. These devices include light-activated and sound-activated toys and appliances, remote controls, timers and clocks, and motorized devices. The subject begins with an overview of the fundamental concepts, followed by a series of laboratory exercises that demonstrate the basic rules, and a final project.

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:
Bales, James
Date Added:
01/01/2004
Practical Guide to Radio-Frequency Analysis and Design
Read the Fine Print
Some Rights Reserved
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Introduction to RF Principles and Components:

What Is RF and Why Do We Use It?
Learning to Live in the Frequency Domain
The RF Engineer’s Guide to the Decibel
Passive Components in RF Circuits
Active Components in RF Circuits

The Electromagnetic Spectrum:

The Many Frequencies of RF Communication
RF Transmission: Regulations, Interference, and Power Transfer
Low-Power RF Devices and the ISM Bands

Real-Life RF Signals:

Coupling and Leakage in RF Systems
What Is a Transmission Line?
Understanding Reflections and Standing Waves in RF Circuit Design
The 50 Ω Question: Impedance Matching in RF Design

Radio Frequency Modulation:

The Many Types of Radio Frequency Modulation
Amplitude Modulation in RF: Theory, Time Domain, Frequency Domain
Frequency Modulation: Theory, Time Domain, Frequency Domain
Phase Modulation: Theory, Time Domain, Frequency Domain
Digital Modulation: Amplitude and Frequency
Digital Phase Modulation: BPSK, QPSK, DQPSK

Radio Frequency Demodulation:

How to Demodulate an AM Waveform
How to Demodulate an FM Waveform
How to Demodulate Digital Phase Modulation
Understanding I/Q Signals and Quadrature Modulation
Understanding Quadrature Demodulation

Selected Topics:

The Benefits of an Intermediate Frequency in RF Systems
Image Rejection and Direct-Conversion Receivers
Understanding Matching Networks
Understanding Spread-Spectrum RF Communication
Quadrature Frequency and Phase Demodulation
Comparing and Contrasting Amplitude, Frequency, and Phase Modulation

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Date Added:
04/29/2020
Semiconductor Devices: Theory & Application + Lab manual
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CC BY-NC-SA
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This text covers the theory and application of discrete semiconductor devices including various types of diodes, bipolar junction transistors, JFETs, MOSFETs and IGBTs. It is appropriate for Associate and Bachelors degree programs in Electrical and Electronic Engineering Technology, Electrical Engineering and similar areas of study. Applications include rectifying, clipping, clamping, switching, small signal amplifiers and followers, and class A, B and D power amplifiers. A companion laboratory manual is available.

The companion laboratory manual includes 28 exercises. Coverage begins at basic semiconductor devices such as signal diodes, LEDs and Zeners; and proceeds through bipolar and field effect devices. Applications include rectifiers, clippers, clampers, AC to DC power supplies, small and large signal class A amplifiers, followers, class B amplifiers, ohmic region FET applications, etc.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Textbook
Provider:
Mohawk Valley Community College
Author:
James Fiore
Date Added:
05/01/2017
Semiconductor Devices: Theory and Application
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CC BY-NC-SA
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This text covers the theory and application of discrete semiconductor devices including diodes, bipolar junction transistors, JFETs, MOSEFETs and IGBTs. It is appropriate for Associate and Bachelors degrees programs in Electrical and Electronic Engineering Technology, Electrical Engineering and similar areas of study. Applications include rectifying, clipping, clamping, switching, small signal amplifiers and followers, and class A, B and D power amplifiers. A companion laboratory manual is available. The text is also available in Open Document Text (.odt) format.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Material Type:
Textbook
Provider:
Dissidents
Author:
James M. Fiore
Date Added:
05/01/2017
Solar Energy: Photovoltaic (PV) Technologies
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The technologies used to produce solar cells and photovoltaic modules are advancing to deliver highly efficient and flexible solar panels. In this course you will explore the main PV technologies in the current market. You will gain in-depth knowledge about crystalline silicon based solar cells (90% market share) as well as other up and coming technologies like CdTe, CIGS and Perovskites. This course provides answers to the questions: How are solar cells made from raw materials? Which technologies have the potential to be the major players for different applications in the future?

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. Arno Smets
Prof. dr. ir. Miro Zeman
Date Added:
04/25/2019
Solid State Physics
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In the electrical engineering, solid-state materials and the properties play an essential role. A thorough understanding of the physics of metals, insulators and semiconductor materials is essential for designing new electronic devices and circuits. After short introduction of the IC fabrication process, the course starts with the crystallography. This will be followed by the basic principle of the quantum mechanics, the sold-state physics, band-structure and the relation with electrical properties of the solid-state materials. When the material physics has been throughly understood, the physics of the semiconductor device follows quite naturally and can be understood quickly and efficiently. Study Goals: The student can 1) determine the crystal structure, the density of atoms and the Miller indices of a crystal, 2) apply Schrodinger's wave equation to various potential functions and derive a probability of finding electrons, 3) discuss the concept of energy band formation and difference of material properties in terms of the band, 4) derive the concentrations of electron and holes with a given temperature in terms of Fermi energy, and 5) can discuss drift, diffusion and scattering of carriers in a semiconductor under various temperature and impurity concentrations.

Subject:
Career and Technical Education
Electronic Technology
Physical Science
Physics
Material Type:
Lecture Notes
Reading
Provider:
Delft University of Technology
Provider Set:
Delft University OpenCourseWare
Author:
Dr. R. Ishihara
Date Added:
04/25/2019
Structured Electronic Design
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This course focuses on a systematic approach to the design of analog electronic circuits. The methodology presented in the course is based on the concepts of hierarchy, orthogonality and efficient modeling. It is applied to the design of negative-feedback amplifiers. It is shown that aspects such as ideal transfer; noise performance, distortion and bandwidth can be optimized independently. A systematic approach to biasing completes the discussion. Lectures are interactive and combined with weekly sessions where students can work on exercises under supervision of the professors.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Activity/Lab
Full Course
Lecture Notes
Provider:
Delft University of Technology
Provider Set:
Delft University OpenCourseWare
Date Added:
02/20/2016
Sustainable Energy: Design A Renewable Future
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CC BY-NC-SA
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A transition to sustainable energy is needed for our climate and welfare. In this engineering course, you will learn how to assess the potential for energy reduction and the potential of renewable energy sources like wind, solar and biomass. You’ll learn how to integrate these sources in an energy system, like an electricity network and take an engineering approach to look for solutions and design a 100% sustainable energy system.

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. Arno Smets
Date Added:
04/25/2019
Technical Project Management in Living and Geometric Order: A Practical Perspective
Unrestricted Use
CC BY
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Technical Project Management in Living and Geometric Order demonstrates that even the best-laid project plans can be undone by new technologies, financial upheavals, or resource scarcity, to name just a few disruptors. It encourages project managers to focus on learning throughout a project, with the understanding that what they learn could necessitate major changes in midstream. This adaptive, flexible, living-order approach is inspired by Lean in construction projects and Agile in software development. Technical Project Management in Living and Geometric Order explains how today’s projects unfold in dynamic environments in response to unexpected events. With its practical tips, detailed graphics, links to additional resources, and interviews with engineering professionals, it’s an accessible introduction to the living order for aspiring project managers.

Subject:
Applied Science
Architecture and Design
Career and Technical Education
Computer Science
Electronic Technology
Engineering
Information Science
Material Type:
Full Course
Provider:
University of Wisconsin
Author:
Jeffrey Russell
John Nelson
Wayne Pferdehirt
Date Added:
04/24/2019
Troubleshooting Motors and Controls
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This course is designed to teach students about induction motors and the methods used to control and troubleshoot them.

Table of Contents:
I. Lesson 1
1. Safety
2. Electrical Fundamentals
3. Meter Usage
4. Homework 1

II. Lesson 2
5. Combination Series/Parallel Circuits
6. Redrawing Complex Circuits
7. Introduction to Logic
8. Homework 2

III. Lesson 3
9. Motor Controls - Introduction
10. Homework 3

IV. Lesson 4
11. Multiple Push Button Stations
12. Homework 4

V. Lesson 5
13. Intermediate Motor Controls
14. Homework 5

VI. Lesson 6
15. Testing Motor Components
16. Homework 6

VII. Lesson 7
17. Timers
18. Homework 7

VIII. Lesson 8
19. Motor Drives
20. Homework 8
Instructor Support

Subject:
Career and Technical Education
Electronic Technology
Industrial Technology
Material Type:
Textbook
Author:
Ken Dickson-Self
Date Added:
04/29/2020
Understanding Lasers and Fiberoptics, Spring 2008
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Lasers are essential to an incredibly large number of applications. Today, they are used in bar code readers, compact discs, medicine, communications, sensors, materials processing, computer printers, data processing, 3D-imaging, spectroscopy, navigation, non-destructive testing, chemical processing, color copiers, laser "shows", and in the military. There is hardly a field untouched by the laser. But what exactly is so unique about lasers that makes them so effective? This brief video course is designed for engineers, scientists, medical personnel, managers, and others who work with lasers and/or fiberoptics, or who anticipate working with lasers and/or fiberoptics, yet have little or no background in laser or fiberoptic basics. The course focuses on fundamentals and emphasizes a physical intuitive interpretation of laser and fiberoptic phenomena and their applications. Because Prof. Ezekiel keeps mathematics to a minimum, the topics covered are easily understood, without the need for a strong technical background. Prof. Ezekiel uses plain language, graphic illustrations, and video demonstrations to explain the basic characteristics of lasers and fiberoptics. High quality versions of the videos are also available through Zeelase. These videos were produced by the MIT Center for Advanced Engineering Study.

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:
Ezekiel, Shaoul
Date Added:
01/01/2008
VLSI Test Technology and Reliability
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With the continue scaling of transistor feature sizes, VLSI chip density continue increases. This results in a continue increase in the complexity VLSI technology where it has reached the point where billions of transistors are integrated on a single chip (like it is the case for System on Chip). To guarantee the satisfaction of the customers, the produced VLSI chips have to be reliable and fully tested. Verification testing and production testing represents 50 t0 60% of the cost of making VLSI chips, and are now the biggest cost of the technology. It has been known for a while that tackling the problems associated with testing VLSI chips at earlier design stage levels significantly reduces testing cost. Thus it is important for hardware designers to be exposed to concepts of VLSI testing which can help them design better product at lower cost.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
Delft University OpenCourseWare
Author:
S. Hamdioui
Date Added:
02/10/2016