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MIT - Collaborative Design & Creative Expression with Arduino Microcontrollers | OpenCourseWare
Hands-on workshop about design & electronics prototyping. Participants will learn about microcontroller programming using Arduino, solderless electronics prototyping, electronic sensors, rapid prototyping, & small team management.
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Arduino: Hardware Prototyping Platform
We will cover basics in building electronic circuits, understanding electricity, and programming to get you confident to build your own physical computing or interactive projects. Arduino to Go is a website book project designed to walk beginners through the steps to get started. It is an open source platform. There are a lot of resources available to help you solve specific issues or build singular projects, but we wanted to provide a solid step by step foundation to help you learn the fundamentals.
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Cornell - ECE Lecture Notes | OpenCourseware
The purpose of this course is to enable students to carry out sophisticated designs of the modern digital systems which now appear in products such as automobiles, appliances and industrial tools.
ECE 4760 is a course on designing complex electronic systems using microcontrollers for embedded control.

Cornell ECE Open CourseWare (OCW) provides access to the education material used in the School of Electrical and Computer Engineering at Cornell University for students and faculty in all educational institutions as well as for general public for personal use.
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MIT - Design of Electromechanical Robotic Systems | OpenCourseWare
Design, construction, & testing of field robotic systems, through projects with each student responsible for a specific subsystem. Projects focus on electronics, instrumentation, & machine elements. Design for operation in uncertain conditions is a focus point. Topics include basic statistics, linear systems, Fourier transforms, random processes, spectra, ethics in engineering practice, & extreme events with applications in design.
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Student Outcomes
  • Be able to design large scale clocked digital systems
  • Understand and make trade-offs between design time, cost, speed, power, area, and design complexity
  • Be able to use a set of commercial tools representative of the design process
  • Be able to evaluate the performance of digital designs
  • Understand the state-of-the-art in modern VLSI practice
https://ocw.ece.cornell.edu/ece-4740-course-details/ece-4740-lecture-notes-and-handouts/
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