MicroPython with the ESP32

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MicroPython with the ESP32 [TutsNode.com] - MicroPython with the ESP32 1. Introduction
  • 2. 01.20 What is uPython and why should you care.mp4 (271.8 MB)
  • 2. 01.20 What is uPython and why should you care.srt (17.0 KB)
  • 6. 01.60 Get the demo scripts for the course.srt (0.5 KB)
  • 1. 01.10 What is this course about.srt (10.0 KB)
  • 3. 01.30 Software you will need.srt (5.3 KB)
  • 4. 01.40 Hardware you will need.srt (3.6 KB)
  • 5. 01.50 How to get the most out of this course.srt (3.2 KB)
  • 1. 01.10 What is this course about.mp4 (144.6 MB)
  • 3. 01.30 Software you will need.mp4 (78.0 MB)
  • 4. 01.40 Hardware you will need.mp4 (51.0 MB)
  • 5. 01.50 How to get the most out of this course.mp4 (47.5 MB)
  • 6. 01.60 Get the demo scripts for the course.mp4 (8.3 MB)
14. Capstone project An example modular script
  • 3. 14.30 Script v1 single file.srt (19.0 KB)
  • 4. 14.40 Script v2 modular.srt (11.5 KB)
  • 2. 14.20 Wiring.srt (5.0 KB)
  • 1. 14.10 What is this mini-project about.srt (3.2 KB)
  • 3. 14.30 Script v1 single file.mp4 (161.6 MB)
  • 4. 14.40 Script v2 modular.mp4 (111.7 MB)
  • 2. 14.20 Wiring.mp4 (89.7 MB)
  • 1. 14.10 What is this mini-project about.mp4 (40.5 MB)
5. A Python (and MicroPython) quick start
  • 6. 05.60 Strings and formatting.srt (19.0 KB)
  • 12. 05.120 Objects and classes.srt (14.9 KB)
  • 7. 05.70 Lists, tuples, ranges.srt (14.9 KB)
  • 5. 05.50 Operators.srt (11.7 KB)
  • 4. 05.40 Variables and types.srt (9.9 KB)
  • 11. 05.110 Functions.srt (8.9 KB)
  • 9. 05.90 Loops.srt (8.1 KB)
  • 13. 05.130 MicroPython coding considerations.srt (7.3 KB)
  • 1. 05.10 Introduction to this section.srt (2.0 KB)
  • 3. 05.30 Comments.srt (2.9 KB)
  • 10. 05.100 Control with if ..elif.. else.srt (5.7 KB)
  • 8. 05.80 Dictionaries.srt (5.9 KB)
  • 2. 05.20 Keywords.srt (4.8 KB)
  • 6. 05.60 Strings and formatting.mp4 (94.9 MB)
  • 5. 05.50 Operators.mp4 (93.0 MB)
  • 12. 05.120 Objects and classes.mp4 (75.0 MB)
  • 7. 05.70 Lists, tuples, ranges.mp4 (72.1 MB)
  • 4. 05.40 Variables and types.mp4 (53.2 MB)
  • 9. 05.90 Loops.mp4 (38.3 MB)
  • 2. 05.20 Keywords.mp4 (37.1 MB)
  • 11. 05.110 Functions.mp4 (34.8 MB)
  • 13. 05.130 MicroPython coding considerations.mp4 (33.3 MB)
  • 8. 05.80 Dictionaries.mp4 (30.7 MB)
  • 10. 05.100 Control with if ..elif.. else.mp4 (29.4 MB)
  • 3. 05.30 Comments.mp4 (22.9 MB)
  • 1. 05.10 Introduction to this section.mp4 (9.8 MB)
8. Sensors
  • 2. 08.20 BME280 environment sensor.srt (17.6 KB)
  • 1. 08.10 DHT22 environment sensor.srt (7.2 KB)
  • 5. 08.50 HC-SR04 ultrasonic distance sensor.srt (5.7 KB)
  • 2. 08.20 BME280 environment sensor.mp4 (164.2 MB)
  • 3. 08.30 ESP32 internal touch sensor.srt (4.1 KB)
  • 4. 08.40 ADXL335 analog accelerometer.srt (3.6 KB)
  • 1. 08.10 DHT22 environment sensor.mp4 (81.6 MB)
  • 5. 08.50 HC-SR04 ultrasonic distance sensor.mp4 (66.3 MB)
  • 3. 08.30 ESP32 internal touch sensor.mp4 (58.6 MB)
  • 4. 08.40 ADXL335 analog accelerometer.mp4 (56.8 MB)
12. Other capabilities
  • 10. 12.80 Write-append sensor data to a CSV file.srt (17.2 KB)
  • 9. 12.72 RTC with ntptime.srt (15.0 KB)
  • 2. 12.20 CPU clock frequency control.srt (11.2 KB)
  • 5. 12.50 Deep-Sleep and light-sleep - Part 1.srt (8.9 KB)
  • 8. 12.70 RTC with manual setting.srt (8.1 KB)
  • 11. 12.82 Read sensor data from a CSV file.srt (6.5 KB)
  • 1. 12.10 Hardware Timers.srt (5.6 KB)
  • 6. 12.52 Deep-Sleep and light-sleep - Part 2 experiments.srt (5.1 KB)
  • 7. 12.60 Reset.srt (4.7 KB)
  • 4. 12.40 Raw temperature sensor.srt (3.6 KB)
  • 3. 12.30 Hall effect sensor.srt (3.6 KB)
  • 2. 12.20 CPU clock frequency control.mp4 (136.1 MB)
  • 10. 12.80 Write-append sensor data to a CSV file.mp4 (120.2 MB)
  • 9. 12.72 RTC with ntptime.mp4 (118.7 MB)
  • 6. 12.52 Deep-Sleep and light-sleep - Part 2 experiments.mp4 (84.7 MB)
  • 5. 12.50 Deep-Sleep and light-sleep - Part 1.mp4 (78.3 MB)
  • 1. 12.10 Hardware Timers.mp4 (66.3 MB)
  • 8. 12.70 RTC with manual setting.mp4 (55.9 MB)
  • 4. 12.40 Raw temperature sensor.mp4 (50.5 MB)
  • 3. 12.30 Hall effect sensor.mp4 (47.9 MB)
  • 7. 12.60 Reset.mp4 (43.1 MB)
  • 11. 12.82 Read sensor data from a CSV file.mp4 (42.5 MB)
3. Working with Thonny IDE
  • 5. 03.50 Other views in Thonny IDE.srt (14.9 KB)
  • 1. 03.10 Getting started with Thonny IDE for Python.srt (10.3 KB)
  • 4. 03.40 How to write and execute a MicroPython program.srt (9.7 KB)
  • 7. 03.70 Using Thonny IDE with BBC microbit.srt (7.6 KB)
  • 9. 03.90 Find Python Packages at PyPI.srt (7.3 KB)
  • 2. 03.20 How to install the MicroPython firmware to your ESP32.srt (6.4 KB)
  • 6. 03.60 Thonny IDE with Raspberry Pi Pico.srt (6.4 KB)
  • 3. 03.30 Setting an interpreter.srt (4.8 KB)
  • 8. 03.80 Thonny IDE Advanced configuration.srt (3.7 KB)
  • 7. 03.70 Using Thonny IDE with BBC microbit.mp4 (102.3 MB)
  • 5. 03.50 Other views in Thonny IDE.mp4 (72.7 MB)
  • 1. 03.10 Getting started with Thonny IDE for Python.mp4 (72.1 MB)
  • 6. 03.60 Thonny IDE with Raspberry Pi Pico.mp4 (71.5 MB)
  • 4. 03.40 How to write and execute a MicroPython program.mp4 (62.1 MB)
  • 2. 03.20 How to install the MicroPython firmware to your ESP32.mp4 (54.1 MB)
  • 9. 03.90 Find Python Packages at PyPI.mp4 (53.6 MB)
  • 3. 03.30 Setting an interpreter.mp4 (50.9 MB)
  • 8. 03.80 Thonny IDE Advanced configuration.mp4 (33.4 MB)
11. Wi-Fi
  • 5. 11.50 Get current weather from OpenWeatherMap.srt (14.3 KB)
  • 3. 11.30 Make a POST request to Dweet.srt (14.1 KB)
  • 2. 11.20 Read text from a file with HTTP GET.srt (13.6 KB)
  • 5. 11.50 Get current weather from OpenWeatherMap.mp4 (177.6 MB)
  • 1. 11.10 How to use Wi-Fi an introduction.srt (10.8 KB)
  • Description


    Description

    With this course, you will learn how to use MicroPython with the ESP32 microcontroller.

    MicroPython is a high-level programming language specifically designed for microcontrollers and resource-limited embedded devices.

    Who is this course for?

    I have created this course for three types of students:

    If you are familiar with Python, you will find that MicroPython looks, feels, and works like regular Python. This course will help you get started quickly, and help you out with the peculiarities of using Python as MicroPython operating on the ESP32 hardware.
    If you have little programming experience, MicroPython is a perfect option for learning how to program hardware. This course will help you learn enough MicroPython to be able to write programs that run on the ESP32 microcontroller.
    If you have experience in programming the ESP32 with the Arduino IDE and language, but what to check out MicroPython, this course will help you do that.

    What is MicroPython?

    MicroPython is a programming language that borrows the syntax and language attributes of Python 3.

    Python 3 is a powerful high-level general-purpose language that is designed to be easy to learn and use. It is extremely popular, and among the top-5 most widely used programming languages. As a result, has an extensive set of learning resources, excellent documentation, and code libraries that cover an amazing breadth of applications.

    From gaming to the Internet of Things, from data science to industrial automation, anything that can be programmed in Python.

    MicroPython was modelled after Python to reduce the barrier to entry for people that want to write programs for microcontrollers or embedded devices that have limited resources.

    What is the ESP32?

    The ESP32 is a powerful yet low-cost microcontroller device from Espresif.

    The appeal of the ESP32 device is that it packs a powerful dual-core CPU, with relatively large amounts of RAM and flash storage, a full complement of wireless and wired communications options, with lots of input/output pins in a small low-cost package.

    The ESP32 is also versatile, as you can program it with a variety of programming tools and languages, including the Arduino IDE, and, of course, MicroPython.

    I selected the ESP32 as the hardware for this course because it is easy to find in the market, very affordable considering its capabilities, and, most likely, most people interested in microcontrollers already have at least one.

    What are the objectives of this course?

    This course has 3 main objectives:

    To introduce you to the MicroPython programming language, even if you have little or no prior experience.
    To help you learn how to use MicroPython with common external devices, like motors and screens, with MicroPython programs running on an ESP32 microcontroller.
    To consolidate this knowledge with the help of two capstone projects. In these projects, you will create a working gadget by combining the knowledge you acquired earlier in the course.

    What are the knowledge prerequisites?

    Before embarking on this course, please confirm that you tick the following boxes:

    You have a basic understanding of electronics. You are comfortable with assembling simple circuits on a breadboard, and you understand simple concepts like pull-up resistors and voltage dividers.
    You have a basic understanding of microcontrollers. For example, you know what is a GPIO, the I2C or SPI interfaces and PWM. You understand that if you connect a 3.3V device to a 5V power source, you will damage the device.
    You are familiar with related concepts, such as the Internet Of Things (which features in one of the course sections).
    You are comfortable with at least one programming language and programming tool. It doesn’t matter which ones, as all modern languages and programming share the same basics.
    You have a growth mindset, and you are willing to work hard in order to learn.

    If you feel that you don’t tick one of these boxes, consider doing one of my introductory Arduino and Electronics courses first. Then you’ll be ready to come back to this course.

    Course organization

    This course is organised in four parts.

    In the first part, you will learn the basics. This is where you’ll learn how to set up and use Thonny, our programming editor, and prepare your ESP32 to work with MicroPython.

    You will also have the opportunity to learn the basics of MicroPython and where and how to find compatible libraries.

    The second part is where you roll up your sleeves and write MicroPython programs. You’ll start with simple pin operations that make LEDs blink and read buttons, then move on to sensors, displays, and motors. There’s a large section dedicated to Wifi and Internet of Things applications, and another section dedicated to more advanced topics such as hardware timers, working with internal sensors, and sleep.

    In the third and final part, you will consolidate your new knowledge with the help of two capstone projects. Both projects combine the same hardware components with one big difference in the software. While in the first project, all of the MicroPython code exists in the same file, in the second project I show you how to modularise the design and break up the code into two files.

    Required software and hardware

    For details on the required software and hardware, I have prepared two separate lectures in this section, which I invite you to watch next.

    But, in summary:

    For the software, you will the Thonny programming tool, and the MicroPython firmware for the ESP32. Both are open-source and free
    For the hardware, you will need an ESP32 board, and an assortment of common components like LEDs, resistors, sensors and motors. It doesn’t matter which ESP32 board you have. As long as it is an ESP32, it will work with MicroPython.

    If you have taken one of my Arduino courses, you probably already have everything you need.

    For the details, please refer to the two lectures in this section where I go into the details for the required software and hardware.

    Ok, what’s next???

    I hope that you now have a good understanding of what this course is about and what to expect ahead.

    The first section contains several free lectures with more detailed information about the course. Feel free to watch them if you wish before enrolling.

    Happy Learning!
    Who this course is for:

    People that are familiar with Python that want to program microcontrollers.
    People with little programming experience but familiar with basic electronics.
    People with experience in the ESP32 using the Arduino IDE.

    Requirements

    You have basic understanding of electronics. You are comfortable with assembling simple circuits on a breadboard, and you understand simple concepts like pull-up resistors and voltage dividers.
    You have a basic understanding of microcontrollers. For example, you know what is a GPIO, the I2C or SPI interfaces and PWM. You understand that if you connect a 3.3V device to a 5V power source, you will damage the device.
    You are familiar with related concepts, such as the Internet Of Things (which features in one of the course sections).
    You are comfortable with at least one programming language and programming tool. It doesn’t matter which ones, as all modern languages and programming share the same basics.
    You have a growth mindset, and you are willing to work hard in order to learn.
    If you feel that you don’t tick one of these boxes, consider doing one of my introductory Arduino and Electronics courses first.

    Last Updated 4/2021



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MicroPython with the ESP32


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