• Post category:StudyBullet-18
  • Reading time:9 mins read


You will no longer wonder what board should you start with, or what board should you learn or use.

What you will learn

Choose the right board that fulfills your needs

Differentiate between each of the boards and why one is better than the other

Our review

—**Course Review: Microcontroller Mastery: Arduino vs. Raspberry Pi vs. ESP32****Overall Rating:** ★★★½ (3.5/5)

## **Review Summary:**

The course “Microcontroller Mastery: Arduino vs. Raspberry Pi vs. ESP32” has received a high regard from recent learners, with an overall rating of 3.50 stars. The consensus among the reviews is that the course provides valuable insights for individuals who are indecisive about which microcontroller to use for their projects.

**Pros:**

– **Clarity and Expertise:** The course offers well-explained differences between the three microcontrollers, helping learners understand when and why to choose one over the other based on their project needs.

– **Comprehensive Coverage:** It provides a comprehensive comparison of the three systems, covering hardware and software aspects as well as their specific uses and capabilities.

– **Real-World Application:** The course assists beginners in getting started with these microcontrollers, offering straightforward content that is easy to understand.

– **Up-to-Date Content:** Learners appreciate the instructor’s commitment to updating the course materials to reflect the latest information.

**Cons:**

– **Visual Aids:** Some learners suggested that showing real devices rather than just images during lectures would make the content more engaging and visually informative.

– **Technical Details:** A few reviews pointed out that additional technical details, such as I/O capabilities and GPIO reassignments, could have been beneficial for a deeper understanding of hardware interfaces.

– **Comparative Analysis:** Some learners felt that there was room for more in-depth comparative analysis between the devices.

– **Resource Availability:** A couple of reviews indicated that better information might be found elsewhere, such as through online research, suggesting that some content could be superseded by freely available internet resources.

## **Detailed Review:**

– **Content Relevance:** The course provides a clear and concise comparison of the Arduino, Raspberry Pi, and ESP32 microcontrollers, as advertised in the title and description. It is particularly useful for beginners looking to familiarize themselves with these devices.

– **Instruction Quality:** The explanations are well-suited for learners at various levels of expertise, making complex concepts accessible and understandable.

– **Engagement Factor:** The course’s effectiveness could be improved by incorporating real device demonstrations, which would enhance the learning experience and provide a clearer visual reference.

– **Technical Depth:** While the course covers the basics well, some learners were looking for more detailed technical specifications, particularly regarding the input/output capabilities and the implications of GPIO reassignments.

– **Content Relevance in 2023:** A few reviews suggest that the course content could be outdated compared to what is readily available on the internet, emphasizing the importance of continuous updates.

In conclusion, “Microcontroller Mastery: Arduino vs. Raspberry Pi vs. ESP32” is a solid introduction to the world of microcontrollers, with strong points in its clarity and practical advice for beginners. Enhancements such as real-device visuals and more detailed technical discussions could elevate the course further. As with any course, it is always beneficial for learners to supplement their studies with additional resources.

Why take this course?

Introduction:

In this course, we will be discussing the Arduino Vs Raspberry PI Vs PIC Microcontroller course. All three of these platforms are essential for anyone interested in embedded systems and microcontrollers. They each offer unique benefits depending on the user’s goals. We will cover the basics of each to help you make an informed decision on which one is right for you.

When it comes to choosing a single-board computer or controller, Arduino, Raspberry Pi, and PIC Microcontroller are the big names you’ll consider. But which one should you choose? What is Arduino best used for? What are the drawbacks of using a Raspberry Pi? Why use PIC Microcontroller? This course will help you answer these questions.

For the purposes of this course, we’ll discuss PIC Microcontroller PIC164550, Arduino Uno R3, and the Raspberry Pi 2 Model B. There are many versions of these boards, and plenty of alternatives that provide different specs and capabilities, but these three are the mainstays of each line.

Why you should take this course?

  • This course will teach you how to use all three platforms in-depth so you can choose which board best suits your needs.
  • You’ll learn how to program your Arduino with C++, Python, and other popular languages.
  • We’ll show you the basics of electronics with our LED Blink project, teaching you basic programming concepts like loops and conditional statements.
  • We’ll teach you enough about microcontrollers to make a decision as to which one is the most suitable for your needs by going through the different features and functions of each board.

Continual Updates

4 Star | More Than 1300 STUDENTS!!! THANK YOU!!!


Get Instant Notification of New Courses on our Telegram channel.


DealsCrown Telegram Banner

What students are saying:

Hassaan Qadeer says, “A good course for those who are confused to decide which microcontroller suits their need. Well-explained differences and great understanding of when to use which board.”

Sunil Thakur says, “Great course. Now I better understand what is what and what to use and look for when I start a project.”

M. K says, “Useful info, and it’s worth watching the lectures.”

Farukm says, “Thanks for the comparisons/review of the three systems. I have a better idea of what to buy for my grandchildren.”

Roman Mishin says, “Information is good.”

This course will help you understand the capabilities and limitations of each microcontroller so that you can make an informed decision on which one to use for your project. By the end of this course, you will know how to set up and program each type of microcontroller, so that you can get started on your project right away.

What are you waiting for? Enroll now!

About the Instructor

Educational Engineering Team

Team of skilled Engineers Sharing Knowledge with the World

Educational Engineering Team is a leading team in the Microcontroller Industry, with over 13 Years of Experience in teaching and doing practical projects.

We strive to put all our hands-on experience into these courses. Instead of superficial knowledge, we go into the depth of the topic and give you the exact step-by-step blueprint on how to tame simple as well as complex topics in easy and digestible bite-sized videos.

This real-world knowledge enables you to grasp knowledge easily, and you can apply this learning immediately to your life and projects.

Educational Engineering Team has been in the Programming and Microcontroller business since 2007. We have been part of many projects. Over the years, we have gained a good insight into students’ and educators’ needs. We are passionate about sharing all our collective knowledge with you. As of 2018, we have already taught over 250k-THOUSAND students and counting.

Currently, we have more than 100+ courses on Udemy.

Educator and Author of “Educational Engineering”.

Ashraf is an educator, Mechatronics engineer, electronics and programming hobbyist, and Maker. He creates online video courses on the EduEng YouTube Channel (More Than 4 Million Views, 20k + Subscribers) and is the author of four Microcontroller books.

As a Chief Educational Engineer since 2007 at Educational Engineering Team, the company he founded, Ashraf’s mission is to explore new trends and technology and help educate the world and make it a better place.

Educational Engineering offers educational courses and Bootcamps, articles, lessons, and online support for electronics hobbyists, Programming hobbyists, Microcontroller hobbyists, STEM students, and STEM teachers.

That team also works as freelancer engineers, helping many students in their graduation projects, and providing guidance and consulting for many students over the years to help them kick-start their careers.

Ashraf’s core skill is explaining difficult concepts in a step-by-step easy-to-understand manner using video and text. With over 11 years of tertiary teaching experience, Ashraf has developed a simple yet comprehensive and informative style in teaching that students from all around the world appreciate.

His passion for Microcontrollers and Programming, in particular for the world of Arduino, PIC Microcontroller, and Raspberry Pi, has guided his personal development and his work through Educational Engineering.

Ashraf’s online courses have helped over 250,000 people from around the world to be better and to make a great career in the industry.

Educational Engineering Team offers courses on:

  • Circuit Design, Simulation, and PCB Fabrication
  • Arduino, PIC Microcontroller, and Raspberry Pi
  • Programming in C, Python, and other programming languages
  • PLC Industrial Programming and Automation
  • 3D Design and Simulation
  • ESP and IoT World

What you will learn

  • How to use Arduino, Raspberry Pi, and PIC Microcontroller.
  • The advantages and limitations of each platform.
  • Programming Arduino with C++, Python, and other languages.
  • Basic electronics and programming concepts.
  • How to choose the right board for your project needs.
  • Practical applications and project examples.

Who is this course for

  • Electronics and microcontroller enthusiasts.
  • Students and professionals looking to expand their skills.
  • Hobbyists interested in Arduino, Raspberry Pi, and PIC Microcontroller projects.
  • Anyone interested in embedded systems and making informed choices between different platforms.

Requirements

  • Basic understanding of electronics and programming.
  • A computer with internet access.
  • Enthusiasm to learn and experiment.
English
language