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Project

Embedded Input Reader

Ozgur Cagdas
In this course, you will design and implement a microprocessor-based, digital device-control interface that allows operators to individually turn on and off devices by entering a passcode. This project will enable you to employ your theoretical and practical...
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In this course, you will design and implement a microprocessor-based, digital device-control interface that allows operators to individually turn on and off devices by entering a passcode. This project will enable you to employ your theoretical and practical skills extensively, posing challenges from converting schematics to breadboard layouts to developing MicroPython code.
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What's inside

Syllabus

This project enables students to employ their theoretical and practical skills extensively, posing challenges from converting schematics to breadboard layouts to developing MicroPython code.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Emphasizes practical skills, from schematics to coding, making it valuable for hands-on learners
Prepares learners for entry-level roles in automation and control systems
Instructors Ozgur Cagdas have expertise in the field, adding credibility to the course content
Combines theoretical and practical elements, providing a well-rounded learning experience
Suitable for individuals with some background in electronics and programming
May require additional resources for learners with no prior knowledge in electronics or MicroPython

Save this course

Save Project: Embedded Input Reader to your list so you can find it easily later:
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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Project: Embedded Input Reader with these activities:
Follow a tutorial on breadboard layout
Understanding breadboard layout is essential for the hands-on component of the course. This tutorial will guide you through the process.
Show steps
  • Find a comprehensive tutorial on breadboard layout.
  • Follow the steps in the tutorial carefully.
  • Experiment with different breadboard layouts using a simulation tool.
Review Digital Logic Basics
Review the fundamentals of digital logic to strengthen your understanding of the course material.
Browse courses on Digital Logic
Show steps
  • Read through your notes or a textbook chapter on digital logic.
  • Solve practice problems involving logic gates and Boolean algebra.
Recall basic MicroPython programming
Refreshing your knowledge of MicroPython will help you follow the course content more effectively.
Browse courses on MicroPython
Show steps
  • Review your notes or textbooks from previous courses.
  • Solve some practice problems or coding exercises.
  • Build a small MicroPython project.
12 other activities
Expand to see all activities and additional details
Show all 15 activities
Review the concept of digital device
Revisiting the fundamentals of digital devices will enhance your understanding of the course materials.
Browse courses on Electronics
Show steps
  • Go through your notes or textbooks from previous courses.
  • Search for online resources and tutorials on digital devices.
  • Attend a workshop or seminar on digital devices.
Explore MicroPython Tutorials
Enhance your MicroPython skills by following guided tutorials that cover essential concepts and practical applications.
Browse courses on MicroPython
Show steps
  • Identify online tutorials or documentation on MicroPython.
  • Work through the tutorials, following the instructions and experimenting with the code.
Solve MicroPython Coding Challenges
Strengthen your MicroPython coding skills by solving coding challenges that test your ability to apply concepts and solve practical problems.
Browse courses on Problem-Solving
Show steps
  • Find online resources or books with MicroPython coding challenges.
  • Attempt to solve the challenges on your own, referring to documentation when needed.
  • Review solutions or discuss your approach with peers or instructors to enhance your understanding.
Join a study group or discussion forum for the course
Engaging with peers in discussions and study sessions can enhance your understanding and provide support throughout the course.
Show steps
  • Find a study group or discussion forum for the course.
  • Attend regular meetings or participate in online discussions.
  • Collaborate with peers, share ideas, and ask questions.
Participate in MicroPython Study Groups
Join or form study groups with fellow learners to discuss concepts, share knowledge, and work on projects together, fostering a collaborative learning environment.
Browse courses on MicroPython
Show steps
  • Identify or create a study group with other students in the course.
  • Meet regularly to discuss course material, ask questions, and work on assignments.
Solve practice problems on MicroPython coding
Regular practice with MicroPython coding will enhance your programming skills and prepare you for the course assignments.
Browse courses on MicroPython
Show steps
  • Find a collection of practice problems or coding exercises.
  • Solve the problems on your own.
  • Compare your solutions with others or with provided answer keys.
Design and Build a Basic Microcontroller Circuit
Apply your knowledge by designing and building a basic microcontroller circuit on a breadboard, reinforcing your understanding of hardware interfacing.
Show steps
  • Plan your circuit diagram using a tool like Fritzing.
  • Purchase the necessary components and gather your tools.
  • Assemble the circuit on a breadboard, carefully following your diagram.
  • Test the functionality of your circuit using a multimeter or other diagnostic tools.
Participate in MicroPython Hackathons
Challenge yourself and expand your skills by participating in MicroPython hackathons, where you can develop creative projects and compete with other participants.
Browse courses on Project Development
Show steps
  • Find and register for MicroPython hackathons that align with your interests.
  • Form a team or work individually on a project idea.
  • Develop your project within the specified timeframe, utilizing your MicroPython knowledge.
  • Present your project and compete with other teams.
Attend a workshop on advanced MicroPython techniques
Attending a workshop will expose you to advanced MicroPython techniques and best practices, enhancing your skills and knowledge.
Browse courses on MicroPython
Show steps
  • Research and find a workshop on advanced MicroPython techniques.
  • Register for the workshop and attend all sessions.
  • Actively participate in the workshop activities and ask questions.
Contribute to MicroPython Open Source Projects
Enhance your understanding and make valuable contributions to the MicroPython community by participating in open source projects, collaborating with other developers.
Browse courses on Community Involvement
Show steps
  • Identify open source MicroPython projects that interest you.
  • Review the project documentation and codebase.
  • Identify areas where you can contribute, such as bug fixes, feature enhancements, or documentation improvements.
  • Submit your contributions to the project and engage with the community.
Design and build a simple digital device
Applying your learning to a practical project will solidify your understanding and demonstrate your mastery of the course concepts.
Browse courses on Circuit Design
Show steps
  • Brainstorm ideas for a simple digital device you can build.
  • Design the circuit and write the MicroPython code.
  • Build the device on a breadboard and test its functionality.
  • Document your project and share it with others.
Create a comprehensive study guide
Organizing and reviewing your course materials in a systematic manner will aid in your retention and understanding.
Show steps
  • Gather all your notes, assignments, and resources for the course.
  • Organize the materials into a logical structure.
  • Create summaries, diagrams, and flashcards for key concepts.

Career center

Learners who complete Project: Embedded Input Reader will develop knowledge and skills that may be useful to these careers:
Embedded Software Developer
Embedded Software Developers design and implement software systems for embedded devices, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as an Embedded Software Developer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Embedded Software Developer
Computer Engineer
Computer Engineers design, develop, and test computer systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Computer Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Computer Engineer
Hardware Engineer
Hardware Engineers design, develop, and test computer hardware, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Hardware Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Hardware Engineer
Electronics Engineer
Electronics Engineers design, develop, and test electronic devices, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as an Electronics Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Electronics Engineer
Electrical Engineer
Electrical Engineers design, develop, and test electrical systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as an Electrical Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Electrical Engineer
Software Engineer
Software Engineers design, develop, and test software systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Software Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Software Engineer
Robotics Engineer
Robotics Engineers design, develop, and test robots, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Robotics Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Robotics Engineer
Control Systems Engineer
Control Systems Engineers design, develop, and test control systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Control Systems Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Control Systems Engineer
Data Scientist
Data Scientists collect, analyze, and interpret data, like the data that you will collect from the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Data Scientist. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Data Scientist
Systems Analyst
Systems Analysts design, develop, and test systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Systems Analyst. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Systems Analyst
Quality Assurance Analyst
Quality Assurance Analysts test software and hardware systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Quality Assurance Analyst. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Quality Assurance Analyst
Machine Learning Engineer
Machine Learning Engineers design, develop, and test machine learning systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Machine Learning Engineer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Machine Learning Engineer
Technical Writer
Technical Writers write documentation for software and hardware systems, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Technical Writer. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Technical Writer
Business Analyst
Business Analysts analyze business needs and develop solutions, like the microprocessor-based digital device-control interface that you will create in this course. Designing and implementing this device-control interface will help you build a foundation for a career as a Business Analyst. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Business Analyst
Project Manager
Project Managers plan, organize, and direct projects, like the project to design and implement a microprocessor-based digital device-control interface that you will complete in this course. Completing this project will help you build a foundation for a career as a Project Manager. You will learn the skills you need to convert schematics to breadboard layouts and develop MicroPython code. You will also learn how to employ theoretical and practical skills in an applied setting.
See salaries and explore the career path for Project Manager

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Project: Embedded Input Reader.
Cover image
Programming with MicroPython
Save
Will teach you how to use MicroPython to program microcontrollers. It covers all the basics of MicroPython, from setting up your development environment to writing your own programs.
Programming with MicroPython
Paperback
Check
Programming with MicroPython
Kindle Edition
Check
Cover image
Introduction to Embedded Systems, Second Edition
Save
Will provide you with a comprehensive overview of embedded system design. It covers all the aspects of embedded system design, from hardware to software.
Introduction to Embedded Systems, Second Edition: A...
Paperback
$$$
Cover image
Computer Organization and Design MIPS Edition
Save
Will provide you with a comprehensive overview of digital design and computer architecture. It covers all the basics of digital design, from logic gates to microprocessors.
Computer Organization and Design MIPS Edition: The...
Paperback
$$$
Computer Organization and Design MIPS Edition: The...
Paperback
$$$$
Computer Organization and Design MIPS Edition: The...
Kindle Edition
$$$
Computer Organization and Design MIPS Edition: The...
Kindle Edition
$$$
Cover image
Computer Organization and Design MIPS Edition
Save
Will provide you with a comprehensive overview of computer organization and design. It covers all the aspects of computer design, from hardware to software.
Computer Organization and Design MIPS Edition: The...
Paperback
$$$
Computer Organization and Design MIPS Edition: The...
Paperback
$$$$
Computer Organization and Design MIPS Edition: The...
Kindle Edition
$$$
Computer Organization and Design MIPS Edition: The...
Kindle Edition
$$$
Cover image
Microcontrollers
Save
Will provide you with a comprehensive overview of microcontrollers. It covers all the aspects of microcontroller design, from hardware to software.
Microcontrollers
Paperback
Check
Microcontrollers
Kindle Edition
Check
Cover image
Principles of Inorganic Materials Design
Save
Will provide you with a comprehensive overview of embedded system design. It covers all the aspects of embedded system design, from hardware to software.
Principles of Inorganic Materials Design
Hardcover
$$$
Principles of Inorganic Materials Design
Kindle Edition
$$$$

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Course image
Time
40320 hours
Level
Introductory
Via
Udacity
Instructor
Ozgur Cagdas
Language
English
Good to know
Emphasizes practical skills, from schematics to coding, making it valuable for hands-on learners
Prepares learners for entry-level roles in automation and control systems
Instructors Ozgur Cagdas have expertise in the field, adding credibility to the course content
Combines theoretical and practical elements, providing a well-rounded learning experience
Suitable for individuals with some background in electronics and programming
May require additional resources for learners with no prior knowledge in electronics or MicroPython
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