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ESP32 Breakout Board – Simplified Connectivity for Servo Motors, Sensors, and Power Management

ESP32 Breakout Board – Simplified Connectivity for Servo Motors, Sensors, and Power Management

Rs. 173.23
Rs. 220.47 Rs. 173.23
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The ESP32 Breakout Board is designed to streamline your IoT and robotics projects by providing a seamless interface for connecting servo motors, sensors, and power sources. This versatile board manages power distribution effectively, converting an 8V lithium-ion battery (e.g., JR Lithium-ion battery) to meet the 3.3V requirement for the ESP32 microcontroller and 5V for servo motors or sensors. With its robust design and easy connections, it ensures stable and reliable performance for every project, making it ideal for both hobbyists and professionals.

Specifications

  • Input Voltage: 8V (supports JR Lithium-ion or similar batteries)
  • Output Voltage:
    • 3.3V for ESP32 board
    • 5V for servo motors, sensors, and peripherals
  • Compatibility: Supports ESP32-based microcontrollers and modules
  • Connectors: Multiple pin headers for servo motors, sensors, and peripherals
  • Battery Support: Lithium-ion batteries, up to 8V input
  • Dimensions: Compact and lightweight

Usage Guide

  1. Power Input:

    • Connect an 8V JR Lithium-ion battery (or similar battery) to the power input terminal on the breakout board.
    • The breakout board will regulate power, providing 3.3V for the ESP32 and 5V for connected peripherals.

  2. Connect ESP32:

    • Plug your ESP32 microcontroller/module into the dedicated slot or headers.

  3. Attach Servo Motors and Sensors:

    • Use the designated 5V power pins and signal pins to connect servo motors or sensors.
    • Ensure the servo motors are aligned properly with the ground, power, and signal pins.

  4. Power Management:

    • The breakout board ensures stable power distribution to prevent overloading or overheating.

  5. Project Setup:

    • Program your ESP32 for your robotics, IoT, or automation project. The breakout board will provide uninterrupted power and connectivity.

Key Features

  • Integrated Power Management:

    • Regulates input voltage (8V) to provide 3.3V for ESP32 and 5V for servo motors or sensors.

  • Simplified Connectivity:

    • Multiple pin headers for connecting servo motors, sensors, and other peripherals easily.

  • Stable Performance:

    • Prevents voltage fluctuations and ensures reliable power delivery to both the ESP32 and connected devices.

  • Compact and Durable:

    • Lightweight and robust design for portable and long-lasting use in projects.

  • Versatile Applications:

    • Ideal for robotics, IoT systems, sensor-based automation, and servo motor control.
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Real Feedback, Real Experiences

  • Aniruddha, Grade 6

    I was super excited to try out the robotics kit, but I wasn't sure if I could do it on my own. Thankfully, the website with the videos was super helpful! I followed the instructions step by step

  • Siddharth Machado

    Hes sooooo into these things!. I ve never seen him smile like this when he's doing anything else.

    such Joy
    -Parent of Siddharth
  • After teaching computer classes for 5 years, I wanted to broaden my skills into hardware, robotics, and IoT for our school curriculum. This course thoroughly covers all the basics, empowering me to introduce these exciting topics to our students confidently
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FAQ's

Can students above 9 years of age do it?

Yes and No, they would certainly require some guidance and handholding, remember they are just starting out. Mentors would be happy to help them. The video is meant for anyone who is starting out.

What if some part is broken or go missing?

You can contact us and let us know which part. We ship the replacement part for free or at a minimal cost depending on the situation

Is Robotics really required for the kid? at such a young age?

Definitely yes! It depends on what and how they are being introduced to these subjects, time is drastically changing and only thing we can do is lay a strong foundation.

When is the ideal time to start Robotics?

As soon as they start developing fine motor skills, one can get started with DIY projects.

About 7-8 years most of them are ready for it.

What happens if they start learning robotics? Why Robotics?

Robotics is a practical way of learning.

Improves scientific inquiry.

Overall understanding of the systems and the way things work

Logical thinking and logical deduction get greatly enhanced.

Studies clearly show that children of age 8 are more creative compared to 16-year-olds.

is this course suitable for – graduates, science teachers, and engineers?

Absolutely! This course is designed to cater to a wide range of learners. Whether you're a recent graduate, a science teacher looking to enhance your curriculum, or an engineer interested in expanding your skill set, this course is perfect for you. It covers foundational concepts, from basic LED operation to software installation and coding, sensor usage, battery management, and motor control. Additionally, it serves as valuable training for educators seeking to impart robotics fundamentals, making it an ideal starting point for anyone venturing into the world of robotics