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339 lines
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339 lines
13 KiB
ReStructuredText
Using With Sonoff S20
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=====================
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esphomeyaml can also be used with Sonoff S20 smart sockets. These devices are
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basically just an ESP8266 chip with a relay to control the socket, a small button on the
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front and a blue and green LED light.
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.. figure:: images/sonoff_s20_header.jpg
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:align: center
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:width: 75.0%
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Sonoff S20 Smart Socket.
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This guide will step you through setting up your Sonoff S20 and flashing the first esphomeyaml firmware
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with the serial interface. After that, you will be able to upload all future firmwares with the remote
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Over-The-Air update process.
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.. note::
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If you've previously installed Sonoff-Tasmota on your Sonoff S20, you're in luck 😀
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esphomeyaml can generate a firmware binary which you can then upload via the
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Tasmota web interface. To see how to create this binary, skip to :ref:`sonoff_s20-creating-firmware`.
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Since firmware version 1.6.0, iTead (the creator of this device) has removed the ability to upload
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a custom firmware through their own upload process. Unfortunately, that means that the only way to
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flash the initial esphomeyaml firmware is by physically opening the device up and using the UART
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interface.
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.. warning::
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Opening up this device can be very dangerous if not done correctly. While the device is open,
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you will be a single touch away from being electrocuted if the device is plugged in.
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So, during this *entire* guide **never ever** plug the device in. Also, you should only do this
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if you know what you're doing. If you, at any step, feel something is wrong or are uncomfortable
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with continuing, it's best to just stop for your own safety.
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It's your own responsibility to make sure everything you do during this setup process is safe.
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For this guide you will need:
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- Sonoff S20 😉
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- An USB to UART Bridge for flashing the device. These can be bought on Amazon for less than 5 dollars.
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Note that the bridge *must* be 3.3V compatible. Otherwise you will destroy your S20.
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- Computer running esphomeyaml HassIO add-on.
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- Screwdriver to open up the S20.
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- Soldering iron and a few header pins to connect the UART interface.
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Have everything? Great! Then you can start.
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Step 1: Opening up the Sonoff S20
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---------------------------------
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The first step is to open up the Sonoff S20. Note that you do not have to run the original firmware
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supplied with the Sonoff S20 before doing this step.
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.. warning::
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Just to repeat this: Make **absolutely sure** the device is not connected to any appliance or
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plugged in before doing this step.
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While the device is not plugged in, turn the back side so it's facing you and unscrew the three
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black screws holding the back of the case together with the front.
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.. figure:: images/sonoff_s20_screws.jpg
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:align: center
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:width: 60.0%
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There are three screws on the back of the Sonoff S20.
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After that, you should be able to remove the front cover and should be greeted by a bunch of parts.
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.. figure:: images/sonoff_s20_parts.jpg
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:align: center
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:width: 75.0%
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Step 2: Connecting UART
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-----------------------
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We're interested in the main part of the S20 with the green PCB. On the bottom of the PCB, you will
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find four unpopulated holes. These pins have the UART interface used to flash firmwares onto the device
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and debug issues.
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.. figure:: images/sonoff_s20_pcb.jpg
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:align: center
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The UART interface of the Sonoff S20.
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So, in order to flash our own custom firmware, we're going to need to somehow connect the UART to USB
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bridge to these pins. The only way to make a good connection here is by using a soldering iron and soldering
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on some pin headers. On older models of the Sonoff S20, you were able to get the whole PCB out. Newer versions,
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however, glue the PCB onto the case to avoid people flashing custom firmwares. If the latter is the case,
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you will need to just solder the pin headers from above - it's a bit difficult, but possible.
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When you're done, it should look something like this:
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.. figure:: images/sonoff_s20_uart.jpg
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:align: center
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Now go ahead and connect the pins to your UART bridge, making sure the S20 is not plugged in as before.
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Also beware that some UART to USB bridges supply 5V on the VCC pin if it's not explicitly labeled 3.3V.
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It's best to just use a multimeter and double check if it's unclear.
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.. note::
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On some older S20s, the ``RX`` and ``TX`` pins are swapped (sometimes even the written silkscreen is
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wrong). If your upload fails with a ``error: espcomm_upload_mem failed`` message it's most likely due
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to the pins being swapped. In that case, just swap ``RX`` and ``TX`` and try again - you won't break
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anything if they're swapped.
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.. _sonoff_s20-creating-firmware:
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Step 3: Creating Firmware
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-------------------------
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The Sonoff S20 is based on the ``ESP8266`` platform and is a subtype of the ``esp01_1m`` board.
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With this information, you can step through the esphomeyaml wizard (``esphomeyaml sonoff_s20.yaml wizard``),
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or alternatively, you can just take the below configuration file and modify it to your needs.
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If you go through the wizard, please make sure you manually set ``board_flash_mode`` to ``dout``
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as seen below. The version of the uploader used by esphomeyaml should automatically detect that
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the Sonoff S20 uses the ``dout`` SPI flash chip mode. But, as some users of other firmwares have
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said that other flash modes can brick the device, it's always good to specify it explicitly.
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.. code:: yaml
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esphomeyaml:
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name: <NAME_OF_NODE>
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platform: ESP8266
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board: esp01_1m
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board_flash_mode: dout
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wifi:
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ssid: <YOUR_SSID>
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password: <YOUR_PASSWORD>
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mqtt:
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broker: <YOUR_MQTT_BROKER>
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username: <YOUR_USERNAME>
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password: <YOUR_PASSWORD>
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logger:
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ota:
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Now run ``esphomeyaml sonoff_s20.yaml compile`` to validate the configuration and
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pre-compile the firmware.
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.. note::
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After this step, you will be able to find the compiled binary under
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``<NAME_OF_NODE>/.pioenvs/<NAME_OF_NODE>/firmware.bin``. If you're having trouble with
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uploading, you can also try uploading this file directly with other tools.
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Step 4: Uploading Firmware
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--------------------------
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In order to upload the firmware, you're first going to need to get the chip into a flash mode, otherwise
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the device will start up without accepting any firmware flash attempts. To do this, while the device is UART
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bridge is not connected to your USB port, start pressing the small push button in the middle of the PCB.
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Then plug in the UART bridge into your computer and just keep holding the button pressed for 2-4 seconds.
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The S20 should now be in a flash mode and should not blink with any LED.
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Now you can finally run the upload command:
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.. code:: bash
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esphomeyaml sonoff_s20.yaml run
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If successful, you should see something like this:
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.. figure:: images/sonoff_s20_upload.png
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:align: center
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Hooray 🎉! You've now successfully uploaded the first esphomeyaml firmware to your Sonoff S20. And in a moment,
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you will be able to use all of esphomeyaml's great features with your Sonoff S20.
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If above step does, however, not work, here are some steps that can help:
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- Sometimes the UART bridge cannot supply enough current to the chip to operate, in this
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case use a 3.3V supply you have lying around. A nice hack is to use the power supply of
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NodeMCU boards. Simply connect 3.3V to VCC and GND to GND on the pins. **Do not attempt
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to plug the device into a socket to overcome this problem while troubleshooting.**
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- In other cases the ``TX`` and ``RX`` pin are reversed. Simple disconnect the device, swap
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the two pins and put it into flash mode again.
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Step 5: Adding the Button, Relay and LEDs
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-----------------------------------------
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Now we would like the S20 to actually do something, not just connect to WiFi and pretty much sit idle.
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Below you will find a table of all usable GPIO pins of the S20 and a configuration file that exposes all
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of the basic functions.
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.. table::
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:class: no-center
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======================================== ========================================
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``GPIO0`` Push Button (HIGH = off, LOW = on)
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---------------------------------------- ----------------------------------------
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``GPIO12`` Relay and its status LED
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---------------------------------------- ----------------------------------------
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``GPIO13`` Green LED (HIGH = off, LOW = on)
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---------------------------------------- ----------------------------------------
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``GPIO1`` ``RX`` pin (for external sensors)
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---------------------------------------- ----------------------------------------
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``GPIO3`` ``TX`` pin (for external sensors)
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======================================== ========================================
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.. code:: yaml
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esphomeyaml:
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name: <NAME_OF_NODE>
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platform: ESP8266
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board: esp01_1m
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board_flash_mode: dout
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wifi:
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ssid: <YOUR_SSID>
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password: <YOUR_PASSWORD>
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mqtt:
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broker: <YOUR_MQTT_BROKER>
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username: <YOUR_USERNAME>
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password: <YOUR_PASSWORD>
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logger:
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ota:
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binary_sensor:
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- platform: gpio
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pin:
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number: GPIO0
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mode: INPUT_PULLUP
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inverted: True
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name: "Sonoff S20 Button"
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- platform: status
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name: "Sonoff S20 Status"
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switch:
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- platform: gpio
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name: "Sonoff S20 Relay"
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pin: GPIO12
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output:
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# Register the green LED as a dimmable output ....
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- platform: esp8266_pwm
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id: s20_green_led
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pin:
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number: GPIO13
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inverted: True
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light:
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# ... and then make a light out of it.
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- platform: monochromatic
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name: "Sonoff S20 Green LED"
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output: s20_green_led
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Above example also showcases an important concept of esphomeyaml: IDs and linking. In order
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to make all components in esphomeyaml as much "plug and play" as possible, you can use IDs to define
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them in one area, and simply pass that ID later on. For example, above you can see an PWM (dimmer)
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output being created with the ID ``s20_green_led`` for the green LED. Later on it is then transformed
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into a :doc:`monochromatic light </esphomeyaml/components/light/monochromatic>`.
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And if you want the thing that's connected through the output of the S20 to appear as a light
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in Home Assistant, replace the last part with this:
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.. code:: yaml
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switch:
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- platform: restart
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name: "Sonoff S20 Restart"
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output:
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- platform: esp8266_pwm
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id: s20_green_led
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pin:
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number: GPIO13
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inverted: True
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# Note: do *not* make the relay a dimmable (PWM) signal, relays cannot handle that
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- platform: binary
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id: s20_relay
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pin: GPIO12
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light:
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- platform: monochromatic
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name: "Sonoff S20 Green LED"
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output: s20_green_led
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- platform: binary
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name: "Sonoff S20 Relay"
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output: s20_relay
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To make pressing the button on the front toggle the relay, have a look at the `the complete Sonoff S20
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with automation example <https://github.com/OttoWinter/esphomedocs/blob/current/esphomeyaml/devices/sonoff_s20.yaml>`__.
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Upload the firmware again (through OTA or Serial) and you should immediately see
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something like this in Home Assistant because of esphomeyaml's automatic MQTT discovery. (You'll
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of course have to add them to groups if you have a ``default_view`` set):
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.. figure:: images/sonoff_s20_result.png
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:align: center
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:width: 75.0%
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Step 6: Finishing Up
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--------------------
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Now you're pretty much done with setting up the Sonoff S20. The only steps left are to
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remove any cables within the housing and make sure everything in there is clean. If, for
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example, you used wires to connect the UART console, you should definitely remove them to avoid
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a short with mains.
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Sometimes the soldered-on header pins can also interfere with the button. It's best to remove the
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header pins again, as you will hopefully not need to use them again because of esphomeyaml's Over-The-Air
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Update features (+ the OTA safe mode; if your node reboots more than 10 times in a row, it will automatically
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enter an OTA-only safe mode).
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If you're sure everything is done with the S20 and have double checked there's nothing that could cause a short
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in the case, you can put the front cover with the button on the base again and screw everything together.
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Now triple or even quadruple check the UART bridge is not connected to the S20, then comes the time when you can
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plug it into the socket.
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Happy hacking!
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See Also
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--------
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- :doc:`sonoff`
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- :doc:`sonoff_4ch`
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- `Edit this page on GitHub <https://github.com/OttoWinter/esphomedocs/blob/current/esphomeyaml/devices/sonoff_s20.rst>`__
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.. disqus::
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