Getting Started with ADC Functionality of ESP32 using MicroPython| VinVout

In this video, we'll explore the Analog-to-Digital Converter (ADC) functionality of ESP32 using MicroPython. ADC is an important feature of ESP32 as it allows us to measure analog signals and convert them into digital values. With ADC, we can build projects that require precise measurements of physical quantities like temperature, humidity, and light intensity.

In this tutorial, we'll cover the basics of ADC and how it works. We'll also show you how to set up your ESP32 board to use ADC and how to write MicroPython code to read analog values. We'll use a simple example of measuring the voltage of a potentiometer to demonstrate the functionality of ADC.

Here's what we'll cover in this tutorial:

Introduction to ADC and its importance in ESP32
Setting up your ESP32 board to use ADC
Writing MicroPython code to read analog values
Using a potentiometer to measure voltage
Displaying analog values on the serial monitor

By the end of this tutorial, you'll have a good understanding of how ADC works and how to use it in your ESP32 projects. So, whether you're a beginner or an experienced maker, this video is for you.

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