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  • Electronic Technology
Autonomous Robot Design Competition
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CC BY-NC-SA
Autonomous Robot Design Competition
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6.270 is a hands-on, learn-by-doing class, in which participants design and build a robot that will play in a competition at the end of January. The goal for the students is to design a machine that will be able to navigate its way around the playing surface, recognize other opponents, and manipulate game objects. Unlike the machines in Design and Manufacturing I (2.007), 6.270 robots are totally autonomous, so once a round begins, there is no human intervention.
The goal of 6.270 is to teach students about robotic design by giving them the hardware, software, and information they need to design, build, and debug their own robot. The subject includes concepts and applications that are related to various MIT classes (e.g. 6.001, 6.002, 6.004, and 2.007), though there are no formal prerequisites for 6.270.

Subject:
Applied Science
Career and Technical Education
Computer Science
Electronic Technology
Engineering
Material Type:
Full Course
Provider:
MIT
Provider Set:
MIT OpenCourseWare
Author:
None, No Faculty
Thilmont, Michael
Date Added:
01/01/2005
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Basic Electronics 1
Conditional Remix & Share Permitted
CC BY-NC-SA
Basic Electronics 1
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Video and study guides for the following topics: Order of operations, algebraic manipulation, negative and fractional exponents, rounding, engineering notation, unit conversion, general industrial safety, energy, power, efficiency, capacity factor, basic electrical properties: voltage, current, resistance, fixed resistors, variable resistors, protoboards, ohmmeters, series resistors, parallel resistors, 4 band resistor color code, DC Ohm’s Law, DC power, voltmeters, ammeters, series DC circuit properties, DC Kirchhoff’s Voltage Law, DC voltage divider rule, parallel DC circuit properties, DC Kirchhoff’s Current Law, DC current divider rule, series-parallel DC circuit properties, instrument loading effects, DC current sources, source conversion, resistive delta-Y conversion, complex DC circuits, DC Superposition Theorem, DC Thevenin’s Theorem, DC Maximum Power Transfer Theorem, DC Norton’s Theorem

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Provider:
OpenOregon
Author:
Jim Pytel
Date Added:
04/06/2020
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Basic Electronics 2
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CC BY-NC-SA
Basic Electronics 2
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This course is the 2nd in a three part series intended to support the flipped classroom approach for traditional basic electronics classes. Basic Electronics 2 covers capacitors and the transient capacitor charge and discharge process, inductors and the transient inductor storage and release process, sinusoidal properties, complex numbers and complex impedance, phasors, AC Ohm’s Law, series AC circuit analysis, parallel AC circuit analysis, and series-parallel AC circuit analysis. The text includes discussions of Kirchhoff’s Voltage Law, the AC Voltage Divider Rule, Kirchhoff’s Current Law, and the AC Current Divider Rule. Additionally the text covers use of AC voltmeters, AC ammeters, function generators, and oscilloscopes. These resources are meant to accompany a hands on lab with the guidance of an instructor.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Provider:
OpenOregon
Author:
Jim Pytel
Date Added:
06/28/2019
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Basic Electronics 3
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CC BY-NC-SA
Basic Electronics 3
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This course is the 3rd installment in a three part series intended to support the flipped classroom approach for traditional basic electronics classes. Basic Electronics 3 covers apparent, real, and reactive power and power factor, power factor correction, ideal and non-ideal transformers, and transformer connection diagrams, AC circuit analysis techniques and theorems like source conversion, the AC superposition theorem, AC Thevenin’s Theorem, and the AC Maximum Power Transfer Theorem, 3 phase AC systems including balanced and unbalanced 4 wire Y configurations, 3 wire Y configurations, and delta configurations, the single wattmeter method and the two wattmeter method. These resources are meant to accompany a hands on lab with the guidance of an instructor.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Provider:
OpenOregon
Author:
Jim Pytel
Date Added:
06/28/2019
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Basic Lighting for Electricians: Level 1
Conditional Remix & Share Permitted
CC BY-NC-SA
Basic Lighting for Electricians: Level 1
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This text was written for the early term electrical apprentice or anyone who is interested in the field of lighting and lighting design. It is not intended as a replacement for proper electrical training and only qualified individuals should make any changes to electrical circuits.

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Textbook
Provider:
British Columbia/Yukon Open Authoring Platform
Author:
Aaron Lee
Date Added:
05/05/2021
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Be Internet Awesome Website Guidance
Unrestricted Use
CC BY
Be Internet Awesome Website Guidance
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This guide walks you through the "Be Internet Awesome" Digital Citizenship games and curriculum created by Google for grades 2-6 (although older students might also enjoy the games). The games are extremely engaging and can be played on their own--or accompanied by their corresponding lessons. The lesson plans provide everything educators need to begin teaching this content in their classrooms

Subject:
Communication
Electronic Technology
Information Science
Material Type:
Game
Lesson Plan
Unit of Study
Author:
Lesley James
Date Added:
11/17/2021
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Bibliografía en internet por Jeremías Spano enGenially
Unrestricted Use
Public Domain
Bibliografía en internet por Jeremías Spano enGenially
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0.0 stars

Infografía acerca de la búsqueda de bibliografía mediante medios digitales. Esta información se complementa con infografía "Motores de búsqueda".

Subject:
Career and Technical Education
Electronic Technology
Material Type:
Data Set
Author:
Jeremías Spano
Date Added:
07/01/2021
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Biological Engineering II: Instrumentation and Measurement
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CC BY-NC-SA
Biological Engineering II: Instrumentation and Measurement
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This course covers sensing and measurement for quantitative molecular/cell/tissue analysis, in terms of genetic, biochemical, and biophysical properties. Methods include light and fluorescence microscopies; electro-mechanical probes such as atomic force microscopy, laser and magnetic traps, and MEMS devices; and the application of statistics, probability and noise analysis to experimental data. Enrollment preference is given to juniors and seniors.

Subject:
Applied Science
Biology
Career and Technical Education
Electronic Technology
Engineering
Life Science
Physical Science
Physics
Material Type:
Full Course
Provider:
MIT
Provider Set:
MIT OpenCourseWare
Author:
Manalis, Scott
Shusteff, Maxim
So, Peter
Date Added:
09/01/2006
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Biomedical Devices Design Laboratory
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CC BY-NC-SA
Biomedical Devices Design Laboratory
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This course provides intensive coverage of the theory and practice of electromechanical instrument design with application to biomedical devices. Students will work with MGH doctors to develop new medical products from concept to prototype development and testing. Lectures will present techniques for designing electronic circuits as part of complete sensor systems. Topics covered include: basic electronics circuits, principles of accuracy, op amp circuits, analog signal conditioning, power supplies, microprocessors, wireless communications, sensors, and sensor interface circuits. Labs will cover practical printed circuit board (PCB) design including component selection, PCB layout, assembly, and planning and budgeting for large projects. Problem sets and labs in the first six weeks are in support of the project. Major team-based design, build, and test project in the last six weeks. Student teams will be composed of both electrical engineering and mechanical engineering students.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Health, Medicine and Nursing
Material Type:
Full Course
Provider:
MIT
Provider Set:
MIT OpenCourseWare
Author:
Ma, Hongshen
Date Added:
09/01/2007
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Biomedical Signal and Image Processing
Conditional Remix & Share Permitted
CC BY-NC-SA
Biomedical Signal and Image Processing
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This course presents the fundamentals of digital signal processing with particular emphasis on problems in biomedical research and clinical medicine. It covers principles and algorithms for processing both deterministic and random signals. Topics include data acquisition, imaging, filtering, coding, feature extraction, and modeling. The focus of the course is a series of labs that provide practical experience in processing physiological data, with examples from cardiology, speech processing, and medical imaging. The labs are done in MATLAB® during weekly lab sessions that take place in an electronic classroom. Lectures cover signal processing topics relevant to the lab exercises, as well as background on the biological signals processed in the labs.

Subject:
Applied Science
Career and Technical Education
Electronic Technology
Engineering
Health, Medicine and Nursing
Material Type:
Full Course
Provider:
MIT
Provider Set:
MIT OpenCourseWare
Author:
Clifford, Gari
Fisher, John
Greenberg, Julie
Wells, William
Date Added:
02/01/2007
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