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Adam St. Amand
At the end of the program, you will showcase your skills by developing an impressive Embedded Voltmeter project, demonstrating your expertise in voltage measurement and embedded systems design.

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What's inside

Syllabus

You will design and build a simple voltmeter using MicroPython using the topics covered up to this point.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Strengthens an existing foundation for intermediate learners by developing an embedded voltmeter
Develops core skills in voltage measurement and embedded systems design
Builds a strong foundation for beginners in embedded systems
Taught by Adam St. Amand, who is recognized for their work in embedded systems
Offered through Udacity, a recognized provider of online courses
Examines embedded systems design, which is highly relevant to industry and academia

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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 Embedded Voltmeter Project with these activities:
Seek guidance from an experienced electrical engineer or embedded systems developer
Gain valuable insights and advice from experts in the field.
Show steps
  • Identify potential mentors through networking events, online forums, or professional organizations.
  • Reach out to mentors and express your interest in learning.
Read 'Practical Electronics for Inventors' by Paul Scherz and Simon Monk
Supplement your course material with this comprehensive guide to practical electronics.
Show steps
  • Read selected chapters related to voltage measurement and embedded systems.
  • Take notes and highlight important concepts.
Join a study group or online forum for voltage measurement and embedded systems
Connect with peers to discuss concepts, share knowledge, and provide support.
Show steps
  • Find a study group or online forum dedicated to voltage measurement or embedded systems.
  • Join the group and participate in discussions.
  • Ask questions and share your own knowledge.
Five other activities
Expand to see all activities and additional details
Show all eight activities
Build a simple voltage-controlled LED circuit
Apply your understanding of voltage to create a practical circuit that demonstrates voltage control.
Browse courses on LEDs
Show steps
  • Gather necessary components (e.g., LED, resistor, potentiometer).
  • Design and build the circuit.
  • Test the circuit and observe the change in LED brightness as the voltage varies.
Practice voltage measurement using a multimeter
Reinforce your understanding of voltage measurement by practicing with a multimeter.
Show steps
  • Familiarize yourself with a multimeter's settings and functions.
  • Measure the voltage of different sources (e.g., batteries, power supplies).
  • Troubleshoot common voltage-related issues.
Compile a resource list of voltage measurement tools and techniques
Build a comprehensive list of resources that you can use for future reference.
Browse courses on Resources
Show steps
  • Search for and collect information on different voltage measurement tools and techniques.
  • Organize the information into a structured document or online repository.
Build a simple voltmeter using MicroPython and the ESP32
Apply your knowledge of MicroPython and the ESP32 to create a practical voltmeter project.
Show steps
  • Set up your ESP32 development environment.
  • Install MicroPython on the ESP32.
  • Write code to read analog voltage using the ESP32's ADC.
  • Display the measured voltage on an LCD screen or serial terminal.
Design and build a custom voltmeter enclosure
Demonstrate your problem-solving and design skills by creating a custom enclosure for your voltmeter project.
Show steps
  • Brainstorm design ideas and create sketches.
  • Model the enclosure in a CAD software (e.g., SolidWorks, Fusion 360).
  • 3D print the enclosure.
  • Assemble the enclosure and mount the voltmeter.

Career center

Learners who complete Embedded Voltmeter Project will develop knowledge and skills that may be useful to these careers:
Project Manager
As a Project Manager, you will be responsible for planning, organizing, and executing projects. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Project Managers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Data Scientist
As a Data Scientist, you will be responsible for collecting, analyzing, and interpreting data. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential knowledge for Data Scientists. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Consultant
As a Consultant, you will be responsible for providing advice and guidance to clients on a variety of technical topics. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential knowledge for Consultants. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Technical Writer
As a Technical Writer, you will be responsible for writing technical documents, such as manuals, reports, and presentations. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential knowledge for Technical Writers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Electrical Engineer
As an Electrical Engineer, you will be responsible for designing, developing, testing, and maintaining electrical systems. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Electrical Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Robotics Engineer
As a Robotics Engineer, you will be responsible for designing, developing, testing, and maintaining robots. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Robotics Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Mechatronics Engineer
As a Mechatronics Engineer, you will be responsible for designing, developing, testing, and maintaining mechatronic systems. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Mechatronics Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Teacher
As a Teacher, you will be responsible for teaching students about a variety of technical topics. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential knowledge for Teachers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Manufacturing Engineer
As a Manufacturing Engineer, you will be responsible for designing, developing, and implementing manufacturing processes. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Manufacturing Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Researcher
As a Researcher, you will be responsible for conducting research on a variety of technical topics. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential knowledge for Researchers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Computer Engineer
As a Computer Engineer, you will be responsible for designing, developing, testing, and maintaining computer systems. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Computer Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Sales Engineer
As a Sales Engineer, you will be responsible for selling technical products and services. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential knowledge for Sales Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Test Engineer
As a Test Engineer, you will be responsible for testing and evaluating electrical and electronic systems. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Test Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Quality Engineer
As a Quality Engineer, you will be responsible for ensuring that products and services meet quality standards. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Quality Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.
Electronics Engineer
As an Electronics Engineer, you will be responsible for designing, developing, testing, and maintaining electronic systems. This course may be useful for you because it will help you build a foundation in voltage measurement and embedded systems design, both of which are essential skills for Electronics Engineers. Additionally, the project-based learning approach of this course will give you valuable hands-on experience that will be helpful in your career.

Reading list

We've selected 12 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 Embedded Voltmeter Project.
This excellent reference provides a broad background on how electricity works. It will be useful to understand what your voltmeter is actually measuring.
Provides more detail on how to choose, use, and troubleshoot components in electronic circuits.
A more thorough introduction to basic electrical concepts. Useful if you have little to no background in electronics.
A more advanced reference text that will provide you with an in-depth understanding of solid-state electronics.
A collection of projects that demonstrate how to use the PIC microcontroller to build useful devices. may provide you with some inspiration for your voltmeter project.
A more advanced text that will provide you with a deep understanding of the internal workings of microprocessors and microcontrollers. Useful if you want to learn more about the fundamentals.
A massive reference work that covers all aspects of electrical engineering. A great place to look up specific topics as needed.
A great resource for those with no prior knowledge of electronics. May be useful for filling in any knowledge gaps.
A popular textbook that provides a comprehensive overview of electronics. Useful as a reference for many topics related to your voltmeter project.

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