Espressif 8266

Configuration:

platform = espressif8266

Espressif Systems is a privately held fabless semiconductor company. They provide wireless communications and Wi-Fi chips which are widely used in mobile devices and the Internet of Things applications.

For more detailed information please visit vendor site.

Configuration

CPU Frequency

See board_build.f_cpu option from “platformio.ini” (Project Configuration File)

[env:myenv]
; set frequency to 160MHz
board_build.f_cpu = 160000000L

FLASH Frequency

Please use board_build.f_flash option from “platformio.ini” (Project Configuration File) to change a value. Possible values:

  • 20000000L

  • 26000000L

  • 40000000L (default)

  • 80000000L

[env:myenv]
; set frequency to 80MHz
board_build.f_flash = 80000000L

FLASH Mode

Flash chip interface mode. This parameter is stored in the binary image header, along with the flash size and flash frequency. The ROM bootloader in the ESP chip uses the value of these parameters in order to know how to talk to the flash chip.

Please use board_build.flash_mode option from “platformio.ini” (Project Configuration File) to change a value. Possible values:

  • qio

  • qout

  • dio

  • dout

[env:myenv]
board_build.flash_mode = qio

Reset Method

You can set custom reset method using upload_resetmethod option from “platformio.ini” (Project Configuration File).

The possible values are:

  • ck - RTS controls RESET or CH_PD, DTR controls GPIO0

  • wifio - TXD controls GPIO0 via PNP transistor and DTR controls RESET via a capacitor

  • nodemcu - GPIO0 and RESET controlled using two NPN transistors as in NodeMCU devkit.

See default reset methods per board.

[env:myenv]
upload_resetmethod = ck

Flash Size

Warning

Please make sure to read ESP8266 Flash layout information first.

Available LD-scripts: https://github.com/esp8266/Arduino/tree/master/tools/sdk/ld

Please open eagle.flash.***.ld file to check how flash is split.

To override default LD script please use board_build.ldscript option from “platformio.ini” (Project Configuration File).

[env:myenv]
board_build.ldscript = eagle.flash.4m.ld

Upload Speed

You can set custom upload speed using upload_speed option from “platformio.ini” (Project Configuration File)

[env:myenv]
upload_speed = 9600

lwIP Variant

Available variants (macros):

  • -D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY v2 Lower Memory (default)

  • -D PIO_FRAMEWORK_ARDUINO_LWIP2_HIGHER_BANDWIDTH v2 Higher Bandwidth

  • -D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY_LOW_FLASH v2 Lower Memory (no features)

  • -D PIO_FRAMEWORK_ARDUINO_LWIP2_HIGHER_BANDWIDTH_LOW_FLASH v2 Higher Bandwidth (no features)

  • -D PIO_FRAMEWORK_ARDUINO_LWIP2_IPV6_LOW_MEMORY v2 IPv6 Lower Memory

  • -D PIO_FRAMEWORK_ARDUINO_LWIP2_IPV6_HIGHER_BANDWIDTH v2 IPv6 Higher Bandwidth

  • -D PIO_FRAMEWORK_ARDUINO_LWIP_HIGHER_BANDWIDTH v1.4 Higher Bandwidth

You can change lwIP Variant by passing a custom macro using project build_flags.

For example, to switch to lwIP v1.4

[env:myenv]
...
build_flags = -D PIO_FRAMEWORK_ARDUINO_LWIP_HIGHER_BANDWIDTH

SDK Version

Available versions (macros):

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK3 NonOS SDK-pre-3.0 as of Jun 26, 2018

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK221 NonOS SDK v2.2.1 (legacy) as of Jun 8, 2018

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK22x_190313 NonOS SDK v2.2.x branch as of Mar 13, 2019

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK22x_190703 NonOS SDK v2.2.x branch as of Jul 03, 2019 (default)

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK22x_191024 NonOS SDK v2.2.x branch as of Oct 24, 2019

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK22x_191105 NonOS SDK v2.2.x branch as of to Nov 05, 2019

  • -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK22x_191122 NonOS SDK v2.2.x branch as of to Nov 22, 2019

You can change SDK version by passing a custom macro using project build_flags.

For example, to switch to SDK-pre-3.0:

[env:myenv]
...
build_flags = -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK3

SSL Support

By default, all SSL ciphers (most compatible) are supported.

You can control SSL support passing a custom macro using project build_flags.

For example, use basic SSL ciphers (lower ROM use):

[env:myenv]
...
build_flags = -D BEARSSL_SSL_BASIC

Serial Debug

Please use the next build_flags to enable Serial debug:

[env:myenv]
...
build_flags = -DDEBUG_ESP_PORT=Serial

; or for Serial1
build_flags = -DDEBUG_ESP_PORT=Serial1

Debug Level

Please use one of the next build_flags to change debug level. A build_flags option could be used only the one time per build environment. If you need to specify more flags, please separate them with a new line or space.

Also, please note that you will need to extend build_flags with Serial Debug macro. For example, build_flags = -DDEBUG_ESP_PORT=Serial -DDEBUG_ESP_SSL ....

Actual information is available in Arduino for ESP8266 Board Manifest. Please scroll to generic.menu.lvl section.

[env:myenv]
platform = ...
board = ...
framework = arduino

;;;;; Possible options ;;;;;;

; SSL
build_flags = -DDEBUG_ESP_SSL

; TLS_MEM
build_flags = -DDEBUG_ESP_TLS_MEM

; HTTP_CLIENT
build_flags = -DDEBUG_ESP_HTTP_CLIENT

; HTTP_SERVER
build_flags = -DDEBUG_ESP_HTTP_SERVER

; SSL+TLS_MEM
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_TLS_MEM

; SSL+HTTP_CLIENT
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_HTTP_CLIENT

; SSL+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_HTTP_SERVER

; TLS_MEM+HTTP_CLIENT
build_flags =
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_CLIENT

; TLS_MEM+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_SERVER

; HTTP_CLIENT+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_HTTP_CLIENT
  -DDEBUG_ESP_HTTP_SERVER

; SSL+TLS_MEM+HTTP_CLIENT
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_CLIENT

; SSL+TLS_MEM+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_SERVER

; SSL+HTTP_CLIENT+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_HTTP_CLIENT
  -DDEBUG_ESP_HTTP_SERVER

; TLS_MEM+HTTP_CLIENT+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_CLIENT
  -DDEBUG_ESP_HTTP_SERVER

; SSL+TLS_MEM+HTTP_CLIENT+HTTP_SERVER
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_CLIENT
  -DDEBUG_ESP_HTTP_SERVER

; CORE
build_flags = -DDEBUG_ESP_CORE

; WIFI
build_flags = -DDEBUG_ESP_WIFI

; HTTP_UPDATE
build_flags = -DDEBUG_ESP_HTTP_UPDATE

; UPDATER
build_flags = -DDEBUG_ESP_UPDATER

; OTA
build_flags = -DDEBUG_ESP_OTA

; OOM
build_flags =
  -DDEBUG_ESP_OOM
  -include "umm_malloc/umm_malloc_cfg.h"

; CORE+WIFI+HTTP_UPDATE+UPDATER+OTA+OOM
build_flags =
  -DDEBUG_ESP_CORE
  -DDEBUG_ESP_WIFI
  -DDEBUG_ESP_HTTP_UPDATE
  -DDEBUG_ESP_UPDATER
  -DDEBUG_ESP_OTA
  -DDEBUG_ESP_OOM -include "umm_malloc/umm_malloc_cfg.h"

; SSL+TLS_MEM+HTTP_CLIENT+HTTP_SERVER+CORE+WIFI+HTTP_UPDATE+UPDATER+OTA+OOM
build_flags =
  -DDEBUG_ESP_SSL
  -DDEBUG_ESP_TLS_MEM
  -DDEBUG_ESP_HTTP_CLIENT
  -DDEBUG_ESP_HTTP_SERVER
  -DDEBUG_ESP_CORE
  -DDEBUG_ESP_WIFI
  -DDEBUG_ESP_HTTP_UPDATE
  -DDEBUG_ESP_UPDATER
  -DDEBUG_ESP_OTA
  -DDEBUG_ESP_OOM -include "umm_malloc/umm_malloc_cfg.h"

; NoAssert-NDEBUG
build_flags = -DNDEBUG

VTables

Please use one of the next build_flags:

[env:myenv]
...

; Flash (default)
build_flags = -DVTABLES_IN_FLASH

; Heap
build_flags = -DVTABLES_IN_DRAM

; IRAM
build_flags = -DVTABLES_IN_IRAM

MMU - Adjusting ICACHE to IRAM ratio

By default the balanced ratio (32KB cache + 32KB IRAM) configuration is used. Alternative configurations can be enabled using the build_flags option in “platformio.ini” (Project Configuration File):

MMU Configuration Options

Name

Description

PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48

16KB cache + 48KB IRAM (IRAM)

PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48_SECHEAP_SHARED

16KB cache + 48KB IRAM and 2nd Heap (shared)

PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM32_SECHEAP_NOTSHARED

16KB cache + 32KB IRAM + 16KB 2nd Heap (not shared)

PIO_FRAMEWORK_ARDUINO_MMU_EXTERNAL_128K

128K External 23LC1024

PIO_FRAMEWORK_ARDUINO_MMU_EXTERNAL_1024K

1M External 64 MBit PSRAM

PIO_FRAMEWORK_ARDUINO_MMU_CUSTOM

Disables default configuration and expects user-specified flags

Examples:

[env:espduino]
platform = espressif8266
framework = arduino
board = espduino
build_flags =
    -D PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48

[env:espino]
platform = espressif8266
framework = arduino
board = espino
build_flags =
    -D PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM32_SECHEAP_NOTSHARED

[env:d1_mini]
platform = espressif8266
framework = arduino
board = d1_mini
build_flags =
    -D PIO_FRAMEWORK_ARDUINO_MMU_CUSTOM
    -D MMU_IRAM_SIZE=0xC000
    -D MMU_ICACHE_SIZE=0x4000
    -D MMU_IRAM_HEAP

More detailed information on this matter can be found in the official documentation.

Exceptions

Exceptions are disabled by default. To enable exceptions, use the PIO_FRAMEWORK_ARDUINO_ENABLE_EXCEPTIONS macro in build_flags. That macro will add the -fexceptions flag and will link the final firmware against the stdc++-exc library with enabled exceptions. For example:

[env:myenv]
...

; Enable exceptions
build_flags = -D PIO_FRAMEWORK_ARDUINO_ENABLE_EXCEPTIONS

Using Filesystem

Selecting appropriate Filesystem

There are two file systems for utilizing the on-board flash on the ESP8266: SPIFFS and LittleFS. They provide a compatible API but have incompatible on-flash implementations, so it is important to choose one or the per project as attempting to mount a SPIFFS volume under LittleFS may result in a format operation and definitely will not preserve any files, and vice-versa.

Warning

SPIFFS is currently deprecated and may be removed in future releases of the core. Please consider moving your code to LittleFS.

The SPIFFS file system is used by default in order to keep legacy project compatible. To choose LittleFS as the file system, it should be explicitly specified using board_build.filesystem option in “platformio.ini” (Project Configuration File), for example:

[env:myenv]
platform = espressif8266
framework = arduino
board = ...
board_build.filesystem = littlefs

More information about pros and cons of each file system can be found in the official documentation.

Uploading files to Filesystem

Warning

Please make sure to read ESP8266 Flash layout information first.

  1. Create a new project using PlatformIO IDE or initialize project using PlatformIO Core (CLI) and pio project init (if you have not initialized it yet)

  2. Create the data folder (it should be on the same level as the src folder) and put files there. Also, you can specify your own location for data_dir

  3. Run the “Upload File System image” task in PlatformIO IDE or use PlatformIO Core (CLI) and the pio run --target command with the uploadfs target.

To upload file system image using OTA update please specify upload_port / --upload-port as IP address or mDNS host name (ending with the *.local). For the details please follow to Over-the-Air (OTA) update.

By default, will be used default LD Script for the board where is specified file system offsets (start, end, page, block). You can override it using Flash Size.

Active discussion is located in issue #382.

Overriding Filesystem image name

By default, the image file name is set according to the used file system: spiffs.bin or littlefs.bin. You can change the file name using a PRE extra script, for example:

[env:d1]
platform = espressif8266
framework = arduino
board = d1
board_build.filesystem = littlefs
extra_scripts =
    pre:extra_script.py

Where a special variable ESP8266_FS_IMAGE_NAME can be overridden:

Import("env")
env.Replace(ESP8266_FS_IMAGE_NAME="custom_image_name")

Over-the-Air (OTA) update

Warning

Please make sure to read the theory behind the OTA updates in the What is OTA? How to use it? article first.

  1. Create a new project using PlatformIO Home or initialize a project via PlatformIO Core (CLI) and pio project init (if you have not initialized it yet)

  2. Copy the basicOTA example to src_dir and configure your WiFi credentials (SSID and password).

  3. Compile the project to ensure there are no syntax errors in the code.

To upload the binary you can either specify the upload address directly in the CLI command using the pio run --upload-port option:

pio run --target upload --upload-port IP_ADDRESS_HERE or mDNS_NAME.local

For example:

pio run -t upload --upload-port 192.168.0.255
pio run -t upload --upload-port myesp8266.local

Or use the upload_port option in “platformio.ini” (Project Configuration File). Please note that you also need to set upload_protocol to espota:

[env:myenv]
upload_protocol = espota
upload_port = IP_ADDRESS_HERE or mDNS_NAME.local

For example:

[env:myenv]
platform = espressif8266
board = nodemcuv2
framework = arduino
upload_protocol = espota
upload_port = 192.168.0.255

Authentication and upload options

You can pass additional options/flags to OTA uploader using upload_flags option in “platformio.ini” (Project Configuration File)

[env:myenv]
upload_protocol = espota
; each flag in a new line
upload_flags =
  --port=8266

Available flags

  • --port=ESP_PORT ESP8266 OTA Port. Default 8266

  • --auth=AUTH Set authentication password

  • --spiffs Use this option to transmit a SPIFFS image and do not flash the module

For the full list with available options please run

~/.platformio/packages/framework-arduinoespressif8266/tools/espota.py --help

Usage: espota.py [options]

Transmit image over the air to the esp8266 module with OTA support.

Options:
  -h, --help            show this help message and exit

  Destination:
    -i ESP_IP, --ip=ESP_IP
                        ESP8266 IP Address.
    -I HOST_IP, --host_ip=HOST_IP
                        Host IP Address.
    -p ESP_PORT, --port=ESP_PORT
                        ESP8266 ota Port. Default 8266
    -P HOST_PORT, --host_port=HOST_PORT
                        Host server ota Port. Default random 10000-60000

  Authentication:
    -a AUTH, --auth=AUTH
                        Set authentication password.

  Image:
    -f FILE, --file=FILE
                        Image file.
    -s, --spiffs        Use this option to transmit a SPIFFS image and do not
                        flash the module.

  Output:
    -d, --debug         Show debug output. And override loglevel with debug.
    -r, --progress      Show progress output. Does not work for ArduinoIDE

Demo

../../_images/platformio-demo-ota-esp8266.jpg

Using Arduino Framework with Staging version

PlatformIO will install the latest Arduino Core for ESP8266 from https://github.com/esp8266/Arduino. The Git should be installed in a system. To update Arduino Core to the latest revision, please open PlatformIO IDE and navigate to PlatformIO Home > Platforms > Updates.

  1. Please install PlatformIO IDE

  2. Initialize a new project, open “platformio.ini” (Project Configuration File) and specify the link to the framework repository in platform_packages section. For example,

    [env:nodemcuv2]
    platform = espressif8266
    board = nodemcuv2
    framework = arduino
    platform_packages =
        platformio/framework-arduinoespressif8266 @ https://github.com/esp8266/Arduino.git
    
  3. Try to build the project

  4. If you see build errors, then try to build this project using the same stage with Arduino IDE

  5. If it works with Arduino IDE but doesn’t work with PlatformIO, then please file a new issue with attached information:

    • test project/files

    • detailed log of build process from Arduino IDE (please copy it from console to https://hastebin.com)

    • detailed log of build process from PlatformIO Build System (please copy it from console to https://hastebin.com)

Examples

Examples are listed from Espressif 8266 development platform repository:

Stable and upstream versions

You can switch between stable releases of Espressif 8266 development platform and the latest upstream version using platform option in “platformio.ini” (Project Configuration File) as described below.

Stable

; Latest stable version
[env:latest_stable]
platform = espressif8266
board = ...

; Custom stable version
[env:custom_stable]
platform = espressif8266@x.y.z
board = ...

Upstream

[env:upstream_develop]
platform = https://github.com/platformio/platform-espressif8266.git
board = ...

Packages

Name

Description

framework-arduinoespressif8266

Arduino Wiring-based Framework for Espressif ESP8266 microcontrollers

framework-esp8266-nonos-sdk

Espressif ESP8266 Non-OS SDK

framework-esp8266-rtos-sdk

Espressif ESP8266 SDK based on FreeRTOS

framework-simba

Simba is an Embedded Programming Platform. It aims to make embedded programming easy and portable

tool-esptool

Espressif ESP8266 build/flash helper tool

tool-esptoolpy

Espressif ESP8266 and ESP32 serial bootloader utility

tool-mklittlefs

Utility for creating littlefs images for upload on the ESP8266

tool-mkspiffs

Tool to build and unpack SPIFFS images

toolchain-xtensa

GCC Toolchain for Xtensa processor

Warning

Linux Users:

Windows Users:

Please check that you have a correctly installed USB driver from board manufacturer

Frameworks

Name

Description

Arduino

Arduino Wiring-based Framework allows writing cross-platform software to control devices attached to a wide range of Arduino boards to create all kinds of creative coding, interactive objects, spaces or physical experiences

ESP8266 Non-OS SDK

The non-OS SDK provides a set of application programming interfaces (APIs) for core ESP8266 functionalities such as data reception/transmission over Wi-Fi, TCP/IP stack functions, hardware interface functions and basic system management functions

ESP8266 RTOS SDK

ESP8266 SDK based on FreeRTOS, a truly free professional grade RTOS for microcontrollers

Simba

Simba is an RTOS and build framework with aims to make embedded programming easy and portable

Boards

Note

4D Systems

Name

Debug

MCU

Frequency

Flash

RAM

4D Systems gen4 IoD Range

No

ESP8266

80MHz

512KB

80KB

Adafruit

Name

Debug

MCU

Frequency

Flash

RAM

Adafruit HUZZAH ESP8266

No

ESP8266

80MHz

4MB

80KB

Amperka

Name

Debug

MCU

Frequency

Flash

RAM

WiFi Slot

No

ESP8266

80MHz

4MB

80KB

DigiStump

Name

Debug

MCU

Frequency

Flash

RAM

DigiStump Oak

No

ESP8266

80MHz

4MB

80KB

Doit

Name

Debug

MCU

Frequency

Flash

RAM

ESP-Mx DevKit (ESP8285)

No

ESP8266

80MHz

1MB

80KB

ESPDuino (ESP-13 Module)

No

ESP8266

80MHz

4MB

80KB

DycodeX

Name

Debug

MCU

Frequency

Flash

RAM

ESPectro Core

No

ESP8266

80MHz

4MB

80KB

ESPert

Name

Debug

MCU

Frequency

Flash

RAM

ESPresso Lite 1.0

No

ESP8266

80MHz

4MB

80KB

ESPresso Lite 2.0

No

ESP8266

80MHz

4MB

80KB

ESPino

Name

Debug

MCU

Frequency

Flash

RAM

ESPino

No

ESP8266

80MHz

4MB

80KB

Espressif

Name

Debug

MCU

Frequency

Flash

RAM

ESP-WROOM-02

No

ESP8266

80MHz

2MB

80KB

Espressif ESP8266 ESP-12E

No

ESP8266

80MHz

4MB

80KB

Espressif Generic ESP8266 ESP-01 1M

No

ESP8266

80MHz

1MB

80KB

Espressif Generic ESP8266 ESP-01 512k

No

ESP8266

80MHz

512KB

80KB

Espressif Generic ESP8266 ESP-07 1MB

No

ESP8266

80MHz

1MB

80KB

Espressif Generic ESP8266 ESP-07S

No

ESP8266

80MHz

4MB

80KB

Generic ESP8285 Module

No

ESP8266

80MHz

1MB

80KB

Phoenix 1.0

No

ESP8266

80MHz

4MB

80KB

Phoenix 2.0

No

ESP8266

80MHz

4MB

80KB

WifInfo

No

ESP8266

80MHz

1MB

80KB

Heltec

Name

Debug

MCU

Frequency

Flash

RAM

Heltec Wifi kit 8

No

ESP8266

80MHz

4MB

80KB

ITEAD

Name

Debug

MCU

Frequency

Flash

RAM

Sonoff Basic

No

ESP8266

80MHz

1MB

80KB

Sonoff S20

No

ESP8266

80MHz

1MB

80KB

Sonoff SV

No

ESP8266

80MHz

1MB

80KB

Sonoff TH

No

ESP8266

80MHz

1MB

80KB

Invent One

Name

Debug

MCU

Frequency

Flash

RAM

Invent One

No

ESP8266

80MHz

4MB

80KB

Lifely

Name

Debug

MCU

Frequency

Flash

RAM

Lifely Agrumino Lemon v4

No

ESP8266

80MHz

4MB

80KB

NodeMCU

Name

Debug

MCU

Frequency

Flash

RAM

NodeMCU 0.9 (ESP-12 Module)

No

ESP8266

80MHz

4MB

80KB

NodeMCU 1.0 (ESP-12E Module)

No

ESP8266

80MHz

4MB

80KB

Olimex

Name

Debug

MCU

Frequency

Flash

RAM

Olimex MOD-WIFI-ESP8266(-DEV)

No

ESP8266

80MHz

2MB

80KB

Schirmilabs

Name

Debug

MCU

Frequency

Flash

RAM

Schirmilabs Eduino WiFi

No

ESP8266

80MHz

4MB

80KB

SeeedStudio

Name

Debug

MCU

Frequency

Flash

RAM

Wio Link

No

ESP8266

80MHz

4MB

80KB

Wio Node

No

ESP8266

80MHz

4MB

80KB

SparkFun

Name

Debug

MCU

Frequency

Flash

RAM

SparkFun Blynk Board

No

ESP8266

80MHz

4MB

80KB

SparkFun ESP8266 Thing

No

ESP8266

80MHz

512KB

80KB

SparkFun ESP8266 Thing Dev

No

ESP8266

80MHz

512KB

80KB

SweetPea

Name

Debug

MCU

Frequency

Flash

RAM

SweetPea ESP-210

No

ESP8266

80MHz

4MB

80KB

ThaiEasyElec

Name

Debug

MCU

Frequency

Flash

RAM

ThaiEasyElec ESPino

No

ESP8266

80MHz

4MB

80KB

WEMOS

Name

Debug

MCU

Frequency

Flash

RAM

WEMOS D1 R1

No

ESP8266

80MHz

4MB

80KB

WeMos D1 R2 and mini

No

ESP8266

80MHz

4MB

80KB

WeMos D1 mini Lite

No

ESP8266

80MHz

1MB

80KB

WeMos D1 mini Pro

No

ESP8266

80MHz

16MB

80KB

WifiDuino

Name

Debug

MCU

Frequency

Flash

RAM

WiFiduino

No

ESP8266

80MHz

4MB

80KB

XinaBox

Name

Debug

MCU

Frequency

Flash

RAM

XinaBox CW01

No

ESP8266

80MHz

4MB

80KB