Remote Transmitter ================== .. seo:: :description: Instructions for setting up switches that send out pre-defined sequences of IR or RF signals :image: remote.png :keywords: Infrared, IR, RF, Remote, TX The ``remote_transmitter`` component lets you send digital packets to control devices in your home. For example this includes infrared data or 433MHz RF signals. First, you need to setup a global hub that specifies which pin your remote sender is connected to. Then you can use the available actions to send encoded remote signals. **See :ref:`remote-setting-up-infrared` and :ref:`remote-setting-up-rf` for set up guides.** .. note:: This component is more accurate on the ESP32, since that chipset has a dedicated peripheral for sending exact signal sequences. .. code-block:: yaml # Example configuration entry remote_transmitter: pin: GPIO32 carrier_duty_percent: 50% # Individual switches switch: - platform: remote_transmitter name: "Panasonic TV Off" panasonic: address: 0x4004 command: 0x100BCBD Configuration variables: ------------------------ - **pin** (**Required**, :ref:`config-pin`): The pin to transmit the remote signal on. - **carrier_duty_percent** (*Optional*, int): How much of the time the remote is on. For example, infrared protocols modulate the signal using a carrier signal. Set this is ``50%`` if you're working with IR leds and to ``100%`` if working with a other things like 433MHz transmitters. - **id** (*Optional*, :ref:`config-id`): Manually specify the ID used for code generation. Use this if you have multiple remote transmitters. .. _remote_transmitter-transmit_action: Remote Transmitter Actions -------------------------- Remote transmitters support a number of :ref:`actions ` that can be used to send remote codes. All supported protocols are listed below. All actions additionally have these configuration variables: .. code-block::yaml on_...: - remote_transmitter.transmit_x: # ... repeat: times: 5 wait_time: 10ms Configuration variables: - **repeat** (*Optional*): Optionally set the code to be repeated a number of times. Defaults to sending the code only once. - **times** (int): The number of times to repeat the code. - **wait_time** (:ref:`config-time`): The time to wait between repeats. - **transmitter_id** (*Optional*, :ref:`config-id`): The remote transmitter to send the remote code with. Defaults to the first one defined in the configuration. .. _remote_transmitter-transmit_raw: ``remote_transmitter.transmit_raw`` Action ****************************************** This :ref:`action ` sends a raw code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_raw: code: [4088, -1542, 1019, -510, 513, -1019, 510, -509, 511, -510, 1020, -1020, 1022, -1019, 510, -509, 511, -510, 511, -509, 511, -510, 1020, -1019, 510, -511, 1020, -510, 512, -508, 510, -1020, 1022, -1021, 1019, -1019, 511, -510, 510, -510, 1022, -1020, 1019, -1020, 511, -511, 1018, -1022, 1020, -1019, 1021, -1019, 1020, -511, 510, -1019, 1023, -1019, 1019, -510, 512, -508, 510, -511, 512, -1019, 510, -509] Configuration variables: - **code** (**Required**, list): The raw code to send as a list of integers. Positive numbers represent a digital high signal and negative numbers a digital low signal. The number itself encodes how long the signal should last (in microseconds). - **carrier_frequency** (*Optional*, float): Optionally set a frequency to send the signal with for infrared signals. Defaults to ``0Hz``. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_jvc`` Action ****************************************** This :ref:`action ` sends a JVC infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_jvc: data: 0x1234 Configuration variables: - **data** (**Required**, int): The JVC code to send, see dumper output for more info. ``remote_transmitter.transmit_lg`` Action ***************************************** This :ref:`action ` sends an LG infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_lg: data: 0x1234567 nbits: 28 Configuration variables: - **data** (**Required**, int): The LG code to send, see dumper output for more info. - **nbits** (*Optional*, int): The number of bits to send. Defaults to ``28``. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_nec`` Action ****************************************** This :ref:`action ` sends an NEC infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_nec: address: 0x1234 command: 0x78AB Configuration variables: - **address** (**Required**, int): The address to send, see dumper output for more details. - **command** (**Required**, int): The NEC command to send. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_sony`` Action ******************************************* This :ref:`action ` a Sony infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmitsony: data: 0x123 nbits: 12 Configuration variables: - **data** (**Required**, int): The Sony code to send, see dumper output for more info. - **nbits** (*Optional*, int): The number of bits to send. Defaults to ``12``. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_rc5`` Action ****************************************** This :ref:`action ` sends an RC5 infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_rc5: address: 0x1F command: 0x3F Configuration variables: - **address** (**Required**, int): The address to send, see dumper output for more details. - **command** (**Required**, int): The RC5 command to send. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_samsung`` Action ********************************************** This :ref:`action ` sends a Samsung infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_samsung: data: 0x1FEF05E4 Configuration variables: - **data** (**Required**, int): The data to send, see dumper output for more details. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_panasonic`` Action ************************************************ This :ref:`action ` sends a Panasonic infrared remote code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_panasonic: address: 0x1FEF command: 0x1F3E065F Configuration variables: - **address** (**Required**, int): The address to send the command to, see dumper output for more details. - **command** (**Required**, int): The command to send. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_rc_switch_raw`` Action **************************************************** This :ref:`action ` sends a raw RC-Switch code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_rc_switch_raw: code: '001010011001111101011011' protocol: 1 Configuration variables: - **code** (**Required**, string): The raw code to send, copy this from the dump output. - **protocol** (*Optional*): The RC Switch protocol to use, see :ref:`remote_transmitter-rc_switch-protocol` for more information. - All other options from :ref:`remote_transmitter-transmit_action`. .. _remote_transmitter-rc_switch-protocol: RC Switch Protocol ^^^^^^^^^^^^^^^^^^ All RC Switch ``protocol`` settings have these settings: - Either the value is an integer, then the inbuilt protocol definition with the given number is used. - Or a key-value mapping is given, then there are these settings: - **pulse_length** (**Required**, int): The pulse length of the protocol - how many microseconds one pulse should last for. - **sync** (*Optional*): The number of high/low pulses for the sync header, defaults to ``[1, 31]`` - **zero** (*Optional*): The number of high/low pulses for a zero bit, defaults to ``[1, 3]`` - **one** (*Optional*): The number of high/low pulses for a one bit, defaults to ``[3, 1]`` - **inverted** (*Optional*, boolean): If this protocol is inverted. Defaults to ``false``. ``remote_transmitter.transmit_rc_switch_type_a`` Action ******************************************************* This :ref:`action ` sends a type A RC-Switch code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_rc_switch_type_a: group: '01001' device: '10110' state: off protocol: 1 Configuration variables: - **group** (**Required**, string): The group to send the command to. - **device** (**Required**, string): The device in the group to send the command to. - **state** (**Required**, boolean): The on/off state to send. - **protocol** (*Optional*): The RC Switch protocol to use, see :ref:`remote_transmitter-rc_switch-protocol` for more information. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_rc_switch_type_b`` Action ******************************************************* This :ref:`action ` sends a type B RC-Switch code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_rc_switch_type_b: address: '0100' channel: '1011' state: off protocol: 1 Configuration variables: - **address** (**Required**, int): The address to send the command to. - **channel** (**Required**, int): The channel to send the command to. - **state** (**Required**, boolean): The on/off state to send. - **protocol** (*Optional*): The RC Switch protocol to use, see :ref:`remote_transmitter-rc_switch-protocol` for more information. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_rc_switch_type_c`` Action ******************************************************* This :ref:`action ` sends a type C RC-Switch code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_rc_switch_type_c: family: 'C' group: 3 device: 1 state: off protocol: 1 Configuration variables: - **family** (**Required**, string): The family to send the command to. Range is ``a`` to ``p``. - **group** (**Required**, int): The group to send the command to. Range is 1 to 4. - **device** (**Required**, int): The device to send the command to. Range is 1 to 4. - **state** (**Required**, boolean): The on/off state to send. - **protocol** (*Optional*): The RC Switch protocol to use, see :ref:`remote_transmitter-rc_switch-protocol` for more information. - All other options from :ref:`remote_transmitter-transmit_action`. ``remote_transmitter.transmit_rc_switch_type_d`` Action ******************************************************* This :ref:`action ` sends a type D RC-Switch code to a remote transmitter. .. code-block:: yaml on_...: - remote_transmitter.transmit_rc_switch_type_d: group: 'c' device: 1 state: off protocol: 1 Configuration variables: - **group** (**Required**, int): The group to send the command to. Range is 1 to 4. - **device** (**Required**, int): The device to send the command to. Range is 1 to 3. - **state** (**Required**, boolean): The on/off state to send. - **protocol** (*Optional*): The RC Switch protocol to use, see :ref:`remote_transmitter-rc_switch-protocol` for more information. - All other options from :ref:`remote_transmitter-transmit_action`. .. _remote-setting-up-infrared: Setting up Infrared Devices --------------------------- In this guide an infrared device will be set up with ESPHome. First, the remote code will be captured with an IR receiver module (like `this one `__). We will use ESPHome's dumping ability to output the decoded remote code directly. Then we will set up a new remote transmitter with an infrared LED (like `this one `__) to transmit the code when a switch is triggered. First, connect the infrared receiver module to a pin on your board and set up a remote_receiver instance: .. code-block:: yaml remote_receiver: pin: D0 dump: all Compile and upload the code. While viewing the log output from the ESP, press a button on an infrared remote you want to capture (one at a time). You should see log output like below: .. code-block:: text # If the codec is known: [D][remote.panasonic] Received Panasonic: address=0x4004 command=0x8140DFA2 # Or raw output if it's not known yet # The values may fluctuate a bit, but as long as they're similar it's ok [D][remote.raw] Received Raw: 4088, -1542, 1019, -510, 513, -1019, 510, -509, 511, -510, 1020, [D][remote.raw] -1020, 1022, -1019, 510, -509, 511, -510, 511, -509, 511, -510, [D][remote.raw] 1020, -1019, 510, -511, 1020, -510, 512, -508, 510, -1020, 1022 If the codec is already implemented in ESPHome, you will see the decoded value directly - otherwise you will see the raw data dump (which you can use just as well). You have just successfully captured your first infrared code. Now let's use this information to emulate a button press from the ESP. First, wire up the IR diode to a new pin on the ESP and configure a global ``remote_transmitter`` instance: .. code-block:: yaml remote_transmitter: pin: D1 # Infrared remotes use a 50% carrier signal carrier_duty_percent: 50% This will allow us to send any data we want via the IR LED. To replicate the codes we decoded earlier, create a new template switch that sends the infrared code when triggered: .. code-block:: yaml switch: - platform: template name: Panasonic Power Button turn_on_action: - remote_transmitter.transmit_panasonic: address: 0x4004 command: 0x8140DFA2 # Or for raw code switch: - platform: template name: Raw Code Power Button turn_on_action: - remote_transmitter.transmit_raw: code: [4088, -1542, 1019, -510, 513, -1019, 510, -509, 511, -510, 1020, -1020, 1022, -1019, 510, -509, 511, -510, 511, -509, 511, -510, 1020, -1019, 510, -511, 1020, -510, 512, -508, 510, -1020, 1022] Recompile again, when you power up the device the next time you will see a new switch in the frontend. Click on it and you should see the remote signal being transmitted. Done! .. _remote-setting-up-rf: Setting Up RF Devices --------------------- The ``remote_transmitter`` and ``remote_receiver`` components can also be used to send and receive 433MHz RF signals. This guide will discuss setting up a 433MHz receiver to capture a device's remote codes. After that we will set up a 433MHz transmitter to replicate the remote code with the press of a switch in the frontend. First, connect the RF module to a pin on the ESP and set up a remote_receiver instance: .. code-block:: yaml remote_receiver: pin: D0 dump: all # Settings to optimize recognition of RF devices tolerance: 50% filter: 250us idle: 4ms buffer_size: 2kb Compile and upload the code. While viewing the log output from the ESP, press a button on an RF remote you want to capture (one at a time). You should see log output like below: .. code-block:: text # If the codec is known: [D][remote.rc_switch] Received RCSwitch: protocol=2 data='100010000000000010111110' # Or raw output if it's not known yet # The values may fluctuate a bit, but as long as they're similar it's ok [D][remote.raw] Received Raw: 4088, -1542, 1019, -510, 513, -1019, 510, -509, 511, -510, 1020, [D][remote.raw] -1020, 1022, -1019, 510, -509, 511, -510, 511, -509, 511, -510, [D][remote.raw] 1020, -1019, 510, -511, 1020, -510, 512, -508, 510, -1020, 1022 .. note:: If the log output is flooded with "Received Raw" messages, you can also disable raw remote code reporting and rely on rc_switch to decode the values. .. code-block:: yaml remote_receiver: pin: D0 dump: - rc_switch tolerance: 50% filter: 250us idle: 4ms buffer_size: 2kb If the codec is already implemented in ESPHome, you will see the decoded value directly - otherwise you will see the raw data dump (which you can use just as well). You have just successfully captured your first RF code. Now let's use this information to emulate a button press from the ESP. First, wire up the RF transmitter to a new pin on the ESP and configure a global ``remote_transmitter`` instance: .. code-block:: yaml remote_transmitter: pin: D1 # RF uses a 100% carrier signal carrier_duty_percent: 100% This will allow us to send any data we want via the RF transmitter. To replicate the codes we decoded earlier, create a new template switch that sends the RF code when triggered: .. code-block:: yaml switch: - platform: template name: RF Power Button turn_on_action: - remote_transmitter.transmit_rc_switch_raw: code: '100010000000000010111110' protocol: 2 # Or for raw code switch: - platform: template name: Raw Code Power Button turn_on_action: - remote_transmitter.transmit_raw: code: [4088, -1542, 1019, -510, 513, -1019, 510, -509, 511, -510, 1020, -1020, 1022, -1019, 510, -509, 511, -510, 511, -509, 511, -510, 1020, -1019, 510, -511, 1020, -510, 512, -508, 510, -1020, 1022] Recompile again, when you power up the device the next time you will see a new switch in the frontend. Click on it and you should see the remote signal being transmitted. Done! See Also -------- - :doc:`index` - :doc:`/components/remote_receiver` - `RCSwitch `__ by `Suat Özgür `__ - `IRRemoteESP8266 `__ by `Mark Szabo-Simon `__ - :apiref:`remote_transmitter/remote_transmitter.h` - :ghedit:`Edit`