Get Started


This document is intended to help you set up the software development environment for the hardware based on the ESP32 chip by Espressif.

After that, a simple example will show you how to use ESP-IDF (Espressif IoT Development Framework) for menu configuration, then building, and flashing firmware onto an ESP32 board.


This is documentation for stable version v4.1 of ESP-IDF. Other ESP-IDF Versions are also available.


ESP32 is a system on a chip that integrates the following features:

  • Wi-Fi (2.4 GHz band)

  • Bluetooth 4.2

  • Dual high performance cores

  • Ultra Low Power co-processor

  • Several peripherals

Powered by 40 nm technology, ESP32 provides a robust, highly integrated platform, which helps meet the continuous demands for efficient power usage, compact design, security, high performance, and reliability.

Espressif provides basic hardware and software resources to help application developers realize their ideas using the ESP32 series hardware. The software development framework by Espressif is intended for development of Internet-of-Things (IoT) applications with Wi-Fi, Bluetooth, power management and several other system features.

What You Need


  • An ESP32 board

  • USB cable - USB A / micro USB B

  • Computer running Windows, Linux, or macOS


  • Toolchain to compile code for ESP32

  • Build tools - CMake and Ninja to build a full Application for ESP32

  • ESP-IDF that essentially contains API (software libraries and source code) for ESP32 and scripts to operate the Toolchain

  • Text editor to write programs (Projects) in C, e.g., Eclipse

Development of applications for ESP32

Development of applications for ESP32

Development Board Overviews

If you have one of ESP32 development boards listed below, you can click on the link to learn more about its hardware.

Installation Step by Step

This is a detailed roadmap to walk you through the installation process.

Step 1. Install prerequisites

Some tools need to be installed on the computer before proceeding to the next steps. Follow the links below for the instructions for your OS:






Mac OS

Step 2. Get ESP-IDF

To build applications for the ESP32, you need the software libraries provided by Espressif in ESP-IDF repository.

To get ESP-IDF, navigate to your installation directory and clone the repository with git clone, following instructions below specific to your operating system.


This guide uses the directory ~/esp on Linux and macOS or %userprofile%\esp on Windows as an installation folder for ESP-IDF. You can use any directory, but you will need to adjust paths for the commands respectively. Keep in mind that ESP-IDF does not support spaces in paths.

Linux and macOS

Open Terminal, and run the following commands:

cd ~/esp
git clone -b v4.1 --recursive

ESP-IDF will be downloaded into ~/esp/esp-idf.

Consult ESP-IDF Versions for information about which ESP-IDF version to use in a given situation.


In addition to installing the tools, ESP-IDF Tools Installer for Windows introduced in Step 1 can also download a copy of ESP-IDF.

Consult ESP-IDF Versions for information about which ESP-IDF version to use in a given situation.

If you wish to download ESP-IDF without the help of ESP-IDF Tools Installer, refer to these instructions.

Step 3. Set up the tools

Aside from the ESP-IDF, you also need to install the tools used by ESP-IDF, such as the compiler, debugger, Python packages, etc.


ESP-IDF Tools Installer for Windows introduced in Step 1 installs all the required tools.

If you want to install the tools without the help of ESP-IDF Tools Installer, open the Command Prompt and follow these steps:

cd %userprofile%\esp\esp-idf

or with Windows PowerShell

cd ~/esp/esp-idf

Linux and macOS

cd ~/esp/esp-idf

Customizing the tools installation path

The scripts introduced in this step install compilation tools required by ESP-IDF inside the user home directory: $HOME/.espressif on Linux and macOS, %USERPROFILE%\.espressif on Windows. If you wish to install the tools into a different directory, set the environment variable IDF_TOOLS_PATH before running the installation scripts. Make sure that your user has sufficient permissions to read and write this path.

If changing the IDF_TOOLS_PATH, make sure it is set to the same value every time the Install script (install.bat, install.ps1 or and an Export script (export.bat, export.ps1 or are executed.

Step 4. Set up the environment variables

The installed tools are not yet added to the PATH environment variable. To make the tools usable from the command line, some environment variables must be set. ESP-IDF provides another script which does that.


ESP-IDF Tools Installer for Windows creates an “ESP-IDF Command Prompt” shortcut in the Start Menu. This shortcut opens the Command Prompt and sets up all the required environment variables. You can open this shortcut and proceed to the next step.

Alternatively, if you want to use ESP-IDF in an existing Command Prompt window, you can run:


or with Windows PowerShell


Linux and macOS

In the terminal where you are going to use ESP-IDF, run:

. $HOME/esp/esp-idf/

Note the space between the leading dot and the path!

You can also create an alias for the export script to your .profile or .bash_profile script. This way you can set up the environment in a new terminal window by typing get_idf:

alias get_idf='. $HOME/esp/esp-idf/'

Note that it is not recommended to source from the profile script directly. Doing so activates IDF virtual environment in every terminal session (even in those where IDF is not needed), defeating the purpose of the virtual environment and likely affecting other software.

Step 5. Start a Project

Now you are ready to prepare your application for ESP32. You can start with get-started/hello_world project from examples directory in IDF.

Copy get-started/hello_world to ~/esp directory:

Linux and macOS

cd ~/esp
cp -r $IDF_PATH/examples/get-started/hello_world .


cd %userprofile%\esp
xcopy /e /i %IDF_PATH%\examples\get-started\hello_world hello_world

There is a range of example projects in the examples directory in ESP-IDF. You can copy any project in the same way as presented above and run it.

It is also possible to build examples in-place, without copying them first.


The ESP-IDF build system does not support spaces in the paths to either ESP-IDF or to projects.

Step 6. Connect Your Device

Now connect your ESP32 board to the computer and check under what serial port the board is visible.

Serial ports have the following patterns in their names:

  • Windows: names like COM1

  • Linux: starting with /dev/tty

  • macOS: starting with /dev/cu.

If you are not sure how to check the serial port name, please refer to Establish Serial Connection with ESP32 for full details.


Keep the port name handy as you will need it in the next steps.

Step 7. Configure

Navigate to your hello_world directory from Step 5. Start a Project and run the project configuration utility menuconfig.

Linux and macOS

cd ~/esp/hello_world menuconfig


cd %userprofile%\esp\hello_world menuconfig

If the previous steps have been done correctly, the following menu appears:

Project configuration - Home window

Project configuration - Home window


The colors of the menu could be different in your terminal. You can change the appearance with the option --style. Please run menuconfig --help for further information.

To navigate and use menuconfig, press the following keys:

  • Arrow keys for navigation

  • Enter to go into a submenu

  • Esc to go up one level or exit

  • ? to see a help screen. Enter key exits the help screen

  • Space, or Y and N keys to enable (Yes) and disable (No) configuration items with checkboxes “[*]

  • ? while highlighting a configuration item to display help about that item

  • / to find configuration items


If you use ESP32-DevKitC board with the ESP32-SOLO-1 module, enable single core mode (CONFIG_FREERTOS_UNICORE) in menuconfig before flashing examples.

Step 8. Build the Project

Build the project by running: build

This command will compile the application and all ESP-IDF components, then it will generate the bootloader, partition table, and application binaries.

$ build
Running cmake in directory /path/to/hello_world/build
Executing "cmake -G Ninja --warn-uninitialized /path/to/hello_world"...
Warn about uninitialized values.
-- Found Git: /usr/bin/git (found version "2.17.0")
-- Building empty aws_iot component due to configuration
-- Component names: ...
-- Component paths: ...

... (more lines of build system output)

[527/527] Generating hello-world.bin v2.3.1

Project build complete. To flash, run this command:
../../../components/esptool_py/esptool/ -p (PORT) -b 921600 write_flash --flash_mode dio --flash_size detect --flash_freq 40m 0x10000 build/hello-world.bin  build 0x1000 build/bootloader/bootloader.bin 0x8000 build/partition_table/partition-table.bin
or run ' -p PORT flash'

If there are no errors, the build will finish by generating the firmware binary .bin file.

Step 9. Flash onto the Device

Flash the binaries that you just built onto your ESP32 board by running: -p PORT [-b BAUD] flash

Replace PORT with your ESP32 board’s serial port name from Step 6. Connect Your Device.

You can also change the flasher baud rate by replacing BAUD with the baud rate you need. The default baud rate is 460800.

For more information on arguments, see


The option flash automatically builds and flashes the project, so running build is not necessary.

Running in directory [...]/esp/hello_world
Executing "python [...]/esp-idf/components/esptool_py/esptool/ -b 460800 write_flash @flash_project_args"... -b 460800 write_flash --flash_mode dio --flash_size detect --flash_freq 40m 0x1000 bootloader/bootloader.bin 0x8000 partition_table/partition-table.bin 0x10000 hello-world.bin v2.3.1
Detecting chip type... ESP32
Chip is ESP32D0WDQ6 (revision 1)
Features: WiFi, BT, Dual Core
Uploading stub...
Running stub...
Stub running...
Changing baud rate to 460800
Configuring flash size...
Auto-detected Flash size: 4MB
Flash params set to 0x0220
Compressed 22992 bytes to 13019...
Wrote 22992 bytes (13019 compressed) at 0x00001000 in 0.3 seconds (effective 558.9 kbit/s)...
Hash of data verified.
Compressed 3072 bytes to 82...
Wrote 3072 bytes (82 compressed) at 0x00008000 in 0.0 seconds (effective 5789.3 kbit/s)...
Hash of data verified.
Compressed 136672 bytes to 67544...
Wrote 136672 bytes (67544 compressed) at 0x00010000 in 1.9 seconds (effective 567.5 kbit/s)...
Hash of data verified.

Hard resetting via RTS pin...

If there are no issues by the end of the flash process, the module will be reset and the “hello_world” application will be running.

Step 10. Monitor

To check if “hello_world” is indeed running, type -p PORT monitor (Do not forget to replace PORT with your serial port name).

This command launches the IDF Monitor application:

$ -p /dev/ttyUSB0 monitor
Running idf_monitor in directory [...]/esp/hello_world/build
Executing "python [...]/esp-idf/tools/ -b 115200 [...]/esp/hello_world/build/hello-world.elf"...
--- idf_monitor on /dev/ttyUSB0 115200 ---
--- Quit: Ctrl+] | Menu: Ctrl+T | Help: Ctrl+T followed by Ctrl+H ---
ets Jun  8 2016 00:22:57

ets Jun  8 2016 00:22:57

After startup and diagnostic logs scroll up, you should see “Hello world!” printed out by the application.

Hello world!
Restarting in 10 seconds...
I (211) cpu_start: Starting scheduler on APP CPU.
Restarting in 9 seconds...
Restarting in 8 seconds...
Restarting in 7 seconds...

To exit IDF monitor use the shortcut Ctrl+].

If IDF monitor fails shortly after the upload, or, if instead of the messages above, you see random garbage similar to what is given below, your board is likely using a 26MHz crystal. Most development board designs use 40MHz, so ESP-IDF uses this frequency as a default value.

Garbled output

If you have such a problem, do the following:

  1. Exit the monitor.

  2. Go back to menuconfig.

  3. Go to Component config –> ESP32-specific –> Main XTAL frequency, then change CONFIG_ESP32_XTAL_FREQ_SEL to 26MHz.

  4. After that, build and flash the application again.


You can combine building, flashing and monitoring into one step by running: -p PORT flash monitor

See also:

  • IDF Monitor for handy shortcuts and more details on using IDF monitor.

  • for a full reference of commands and options.

That’s all that you need to get started with ESP32!

Now you are ready to try some other examples, or go straight to developing your own applications.

Updating ESP-IDF

You should update ESP-IDF from time to time, as newer versions fix bugs and provide new features. The simplest way to do the update is to delete the existing esp-idf folder and clone it again, as if performing the initial installation described in Step 2. Get ESP-IDF.

Another solution is to update only what has changed. The update procedure depends on the version of ESP-IDF you are using.

After updating ESP-IDF, execute the Install script again, in case the new ESP-IDF version requires different versions of tools. See instructions at Step 3. Set up the tools.

Once the new tools are installed, update the environment using the Export script. See instructions at Step 4. Set up the environment variables.