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330 lines
13 KiB
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Physically Connecting to your Device
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====================================
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The most difficult part of setting up a new ESPHome device is the initial
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installation, which requires connecting your ESP device to a computer using a
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cable.
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**You only need to do this once per device.** Once you've flashed ESPHome on a
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device, you can use :doc:`the OTA updater </components/ota>` to upload new
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versions or configuration changes wirelessly.
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ESPHome runs on a wide variety of devices, so it's hard to list any specific
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set of tools that you need or to give instructions on how to connect. This
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guide tries to cover some of the more common flashing situations. If your
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device doesn't fit any of these situations, try and find a guide for your
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specific device in the :ref:`devices guides <devices>` or elsewhere on the
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internet.
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Connecting to the ESP
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---------------------
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There's a wide variety of situations you might find yourself in, each of which
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requires you do something different to connect your computer to the ESP in
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order to flash it.
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You only need to physically connect to it once. Once you've flashed your device
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and connected it to your WiFi, you can use the `OTA (over-the-air) update
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component </components/ota.html>`_ to install software remotely.
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Programming a ESP-based device is done by connecting the serial port on the
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ESP8266/ESP32 to your computer through a USB to serial adapter. Some devices
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have adapter built into the circuit board, in which case things are a bit easier.
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.. note::
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If the serial port is not showing up, you might not have the required
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drivers installed. The model number you need is engraved on the chip
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connected to the USB port, or in the store listing. These drivers work for
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most ESP devices:
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* CP2102 (square chip): `driver
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<https://www.silabs.com/products/development-tools/software/usb-to-uart-bridge-vcp-drivers>`__
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* CH341: `driver
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<https://github.com/nodemcu/nodemcu-devkit/tree/master/Drivers>`__
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With the exception of the situation where you have a USB port, you need to make
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five electrical connections to program an ESP-based board:
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- +3.3V, or occasionally +5.0V
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- GND, or ground
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- TX
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- RX
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- IO0, used to place the board into programming mode. This is often a button
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that you need to hold down while connecting the power (+3.3V).
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RX and TX are frequently swapped. If programming your board doesn't work the
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first time, try flipping the wires connected to those pins before trying again.
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.. warning::
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.. image:: /images/high-voltage-warning.svg
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:alt: High voltage warning symbol
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:height: 50
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**Do not connect your device to mains electricity while following this
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guide.** If your device is open and plugged directly into the wall, you'll
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be a single touch away from being electrocuted.
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Note that this does not apply if your device uses a separate "wall wart" or
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a power brick. Using an external power supply while flashing is an advanced
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topic not covered here, but does not pose any safety risk.
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**You are solely responsible for your own safety.** If you feel something
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is wrong or are uncomfortable with continuing, stop immediately.
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USB Port on Device
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******************
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.. figure:: /images/nodemcu_esp8266.jpg
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:align: center
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:width: 75.0%
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A device with a USB port and a serial adapter built-in
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Development boards often come with a USB port built in. This USB port is
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connected to a serial adapter, so you don't need a separate serial adapter. You
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can use just a :ref:`USB cable <usb-cable>` to connect it to your computer to
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program it.
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This isn't likely to be very useful without connecting additional sensors to it
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by either soldering or using a breadboard, but you do not need anything else to
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*just* flash ESPHome on it.
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Pre-soldered Programming Header
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*******************************
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.. figure:: images/programming-header-populated.jpg
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:align: center
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:width: 75.0%
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A device that comes with programming headers pre-installed
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In this situation, you'll need just :ref:`jumper wires <jumper-wires>` and a
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:ref:`USB to serial adapter <usb-serial-adapter>`. You don't need to solder
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anything, that's already been done by the factory.
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Unpopulated Programming Header
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******************************
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.. figure:: images/programming-header-unpopulated.jpg
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:align: center
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:width: 75.0%
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A device that has a spot for programming headers on the circuit board
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You can probably get away with :ref:`jumper wires <jumper-wires>` and a
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:ref:`USB to serial adapter <usb-serial-adapter>`. You can place the male end
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of the wires directly into the circuit board and hold them into place with your
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hand until you're done flashing the board.
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These headers sometimes have writing on the circuit board indicating what each
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pin is. If your header does not, either look it up on the internet, or use a
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multimeter in continuity mode to figure it out (advanced topic).
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Solder-filled Programming Header
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********************************
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.. figure:: images/programming-header-filled.jpg
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:align: center
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:width: 75.0%
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A set of programming headers that are filled with solder
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You'll need a USB to serial adapter, :ref:`jumper wires <jumper-wires>`, a
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:ref:`soldering iron <soldering-iron>`, and probably :ref:`solder <solder>` and
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some :ref:`breakaway headers <pcb-headers>` if your board looks like this.
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You can try placing the jumper wires in the right place, but you'll have
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trouble holding them without having them slide around. You'll want to solder a
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header onto the programming port in this situation.
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These headers sometimes have writing on the circuit board indicating what each
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pin is. If your header does not, either look it up on the internet, or use a
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multimeter in continuity mode to figure it out (advanced topic).
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Module Only
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***********
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.. figure:: images/module-only-programming.jpg
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:align: center
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:width: 75.0%
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:alt: From https://tasmota.github.io/docs/devices/SM-SO301/
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An ESP8266 module with programming wires soldered on
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If the device has a module but no programming headers, things get a bit tricky.
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You'll need a :ref:`USB to serial adapter <usb-serial-adapter>`, :ref:`jumper
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wires <jumper-wires>`, :ref:`wire strippers <wire-strippers>`, :ref:`wire snips
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<wire-snips>`, a :ref:`soldering iron <soldering-iron>`, :ref:`solder
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<solder>`, and a bit of :ref:`flux <soldering-flux>` would help.
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Cut the jumper wires, strip a bit off the end, and then solder them onto the
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module. You can find the correct places to solder the wires by looking up the
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module model number on the internet. You can find `one list of commonly used
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modules here <https://tasmota.github.io/docs/Pinouts/>`_.
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Bare Chip
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*********
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.. figure:: images/programming-bare-chip.jpg
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:align: center
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:width: 75.0%
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:alt: From https://tasmota.github.io/docs/devices/Teckin-SP23/
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A bare ESP8266 IC with no programming header
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This is an advanced topic and won't be covered in detail, but you have three options:
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- You can hope that your device is supported by an OTA conversation tool. Most
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these tools have been broken by vendors, and the ESPHome community can't help
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you with using these tools.
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- If the programming wires connect to a larger component like a resistor, you
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can solder or clip your :ref:`jumper wires <jumper-wires>` to that larger
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component.
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- You can use your amazing microsoldering skills to connect directly to the IC.
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Materials
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---------
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Because we're working with hardware, we might need some additional tools,
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depending on the situation. Already have all this stuff? You're good to go!
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But if you don't, don't go out and buy everything just yet. Read through the
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guide first and make a list of everything you need. Different situations will
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require different parts and tools.
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.. list-table::
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:header-rows: 1
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:widths: 1 3 1 3
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* - Name
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- Purpose
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- Approx. cost
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- Picture
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.. _usb-cable:
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* - :ref:`USB to micro-USB/mini-USB/USB-C <usb-cable>`
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- If your target device has a USB port on it, you need the appropriate
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cable to connect to it.
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- $3 to $10
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- .. image:: /guides/images/usb-cable.jpg
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:alt: From https://www.stockvault.net/photo/271754/usb-cable
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.. _usb-serial-adapter:
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* - :ref:`USB to serial adapter <usb-serial-adapter>`
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- Serial communication is a simple way of talking to other devices, like
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the ESP32/ESP8266 you're flashing. But your computer probably doesn't
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have this capability built-in. "Serial", "UART", "TTL", and "COM" are
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all more-or-less synonyms.
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There are many different types of these, so don't worry if yours doesn't
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look exactly like the picture. However, you do need one with a voltage
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regulator.
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The `Tasmota website provides a good set of suggestions on what to buy
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<https://tasmota.github.io/docs/Getting-Started/#needed-hardware>`_.
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- $3 to $10
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- .. image:: /guides/images/usb-serial-adapter.jpg
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:alt: From https://tasmota.github.io/docs/Getting-Started/
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.. _jumper-wires:
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* - :ref:`Jumper wires <jumper-wires>`
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- Used to connect two things together electrically. The male end has metal
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protuding and is plugged into the female end of a wire or board.
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They come in varying lengths too, but for our purposes, any length will
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do.
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- $3 to $8 for a pack
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- .. image:: /guides/images/jumper-wires.jpg
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:alt: From https://www.flickr.com/photos/snazzyguy/8096512976
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.. _pcb-headers:
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* - :ref:`Breakable headers <pcb-headers>`
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- Soldered to a PCB to provide a way to connect jumper wires. The distance
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between the metal pins is known as the pitch, and is usually 2.54mm for
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what we're doing.
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This sort of header can be cut to the correct length along the groves.
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- $3 to $8 for a pack
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- .. image:: /guides/images/breakable-header.jpg
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:alt: From https://www.flickr.com/photos/snazzyguy/27120004896/
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.. _wire-snips:
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* - :ref:`Wire snips, wire cutters, flush cutters <wire-snips>`
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- Used to cut wire. These can often be subsituted by a knife or scissors,
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but be careful not to hurt yourself.
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- $5 to $15
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- .. image:: /guides/images/wire-cutters.jpg
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:alt: From https://www.flickr.com/photos/snazzyguy/3932324106
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.. _wire-strippers:
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* - :ref:`Wire strippers <wire-strippers>`
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- Used to remove the insulation from wires, leaving the conductive metal
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interior exposed. These can often be subsituted by a knife, scissors, or
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fingernails, but be careful not to hurt yourself.
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There are many different styles, not just that in the picture. You'll
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want something that works with fairly thin wire, about 20 AWG to 26 AWG.
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- $5 to $15
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- .. image:: /guides/images/strippers.jpg
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:alt: From https://www.flickr.com/photos/snazzyguy/3931542659
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.. _soldering-iron:
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* - :ref:`Soldering iron <soldering-iron>`
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- Used to melt metal, called solder, to connect things together in an
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electrically conductive way.
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You'll want something with temperature control. Other than that, there
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are many varying opinions and options here.
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`The /r/AskElectronics wiki has some good suggestions
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<https://www.reddit.com/r/AskElectronics/wiki/soldering>`_. The
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following would serve you well, although be careful to buy from a
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reliable source:
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- Hakko FX-888D
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- KSGER T12
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- TS100/TS80
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- $60 to $120
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- .. image:: /guides/images/soldering-iron.jpg
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:alt: From https://commons.wikimedia.org/wiki/File:Soldering_Station_Weller_2.jpeg
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.. _solder:
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* - :ref:`Electronics solder <solder>`
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- Molten metal used to join things in an electrically conductive way.
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There are two types, leaded and lead-free. Leaded melts at a lower
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temperature and is a little easier to work with, but is hazardous to the
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environment (but not to humans in this form).
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Electronics solder also usually has a "rosin core", which helps clean
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the surfaces to allow the solder to stick.
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You absolutely do not want plumbing solder, also known as "acid core" or
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"silver solder". It needs much higher temperatures than we can safely
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use here.
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- $8 to $12
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- .. image:: /guides/images/solder.jpg
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:alt: From https://commons.wikimedia.org/wiki/File:Rosin_core_solder.JPG
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.. _soldering-flux:
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* - :ref:`Electronics flux <soldering-flux>`
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- Used to clean the metal surfaces before soldering them together.
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Sometimes the rosin core of the solder doesn't provide enough, so you'd
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want add some extra.
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This stuff is helpful, but probably not needed for this guide since we
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won't be doing any advanced soldering.
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If you do buy it, you absolutely do not want plumber's flux. It will
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destroy your circuit boards.
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- $8 to $12
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- .. image:: /guides/images/flux.jpg
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See Also
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--------
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- :doc:`ESPHome index </index>`
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- :doc:`getting_started_command_line`
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- :doc:`getting_started_hassio`
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- :ghedit:`Edit`
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