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s-hadinger 2019-09-09 22:14:30 +02:00
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# "Complete" IR Remote Protocols
> **Under construction, data below is not yet accurate**
The default Tasmota firmware variants include support for IR send/receive for a limited set of protocols (see [IR Remote](Commands#irremote)). Tasmota uses the [IRremoteESP8266 library](https://github.com/crankyoldgit/IRremoteESP8266) that supports numerous protocols. Each protocol consumes some program memory, especially air conditioner protocols (up to 81k of Flash size).
There are now two additional Tasmota firmware variants that provide almost all IRremoteESP8266 protocols. This requires disabling some other features to keep code size manageable.
@ -12,8 +10,51 @@ There are now two additional Tasmota firmware variants that provide almost all I
Send an IR remote control code as a decimal or hexadecimal string in a JSON payload. In order to send IR data, _**you must configure one of the free device GPIO as `IRsend (8)`. Neither GPIO01 nor GPIO03 can be used.**_
<a id="tb-irremote">Command|Parameters
Command|Parameters
:---|:---
IRsend`<x>`<a id="IRsend"></a>|`<x>` [_optional_] = number of times the IR message is sent. If not specified or `0..1`, the message is sent only once (i.e., not repeated) _(default)_<BR>`>1` = emulate a long-press on the remote control, sending the message `<x>` times, or sending a repeat message for specific protocols (like NEC)<BR><BR>`{"Protocol":"<value>","Bits":<value>,"Data":<value>,"DataLSB":<value>,"Repeat":<value>}`<BR><BR>`"Protocol"` or `"Vendor"` (select one of the following): <BR>`RC5, RC6, NEC, SONY, PANASONIC, JVC, SAMSUNG, WHYNTER, AIWA_RC_T501, LG, MITSUBISHI, DISH, SHARP, DENON, SHERWOOD, RCMM, SANYO_LC7461, RC5X, NEC (non-strict), NIKAI, MAGIQUEST, LASERTAG, CARRIER_AC, MITSUBISHI2, HITACHI_AC1, HITACHI_AC2, GICABLE, LUTRON, PIONEER, LG2, SAMSUNG36, LEGOPF, INAX, DAIKIN152`<BR><BR>`"Bits":1..64` = required number of data bits<BR>&nbsp;&nbsp;&nbsp;&nbsp;for PANASONIC protocol this parameter is the the address, not the number of bits<BR><BR>`"Data":0x1..0xFFFFFFFFFFFFFFFF` = data frame as 64 bit hexadecimal.<BR>&nbsp;&nbsp;&nbsp;&nbsp;e.g., `IRsend {"Protocol":"NEC","Bits":32,"Data":0x8166817E}`<BR>**Or**<BR>`"DataLSB":0x1..0xFFFFFFFFFFFFFFFF` = data frame as 64 bit hexadecimal with LSB (each byte with bits reversed).<BR>&nbsp;&nbsp;&nbsp;&nbsp;e.g., `IRsend {"Protocol":"NEC","Bits":32,"Data":0x8166817E}`<BR>`DataLSB` comes handy with LSB-first (Least Significant Bit First) protocols like NEC, and makes decoding/encoding easier.<BR><BR>Alternatively, you can send IR remote control codes using [RAW command encoding](IRSend-RAW-Encoding).<BR><BR>Information on [Receiving Infrared Data](Receiving-Infrared-Remote-Control-Data)
IRhvac<a id="IRhvac"></a>|Send HVAC IR remote control code as JSON payload<Br>`{"Vendor":"<value>","Power":<value>,"Mode":”<value>”, "FanSpeed":”<value>”,"Temp":<value>}`<BR>`"Vendor":"Toshiba"\|"Mitsubishi"\|"LG"\|"Fujitsu"`<BR>`"Power":0\|1`<BR>`"Mode":"Hot"\|"Cold"\|"Dry"\|"Auto"`<BR>`"FanSpeed":"1"\|"2"\|"3"\|"4"\|"5"\|"Auto"\|"Silence"` <BR>`"Temp":17..30`
IRsend`<x>`<a id="IRsend"></a>|`<x>` [_optional_] = number of times the IR message is sent. If not specified or `0..1`, the message is sent only once (i.e., not repeated) _(default)_<BR>`>1` = emulate a long-press on the remote control, sending the message `<x>` times, or sending a repeat message for specific protocols (like NEC)<BR><BR>`{"Protocol":"<value>","Bits":<value>,"Data":<value>,"DataLSB":<value>,"Repeat":<value>}`<BR><BR>`"Protocol"` or `"Vendor"` (select one of the following): <BR>`RC5, RC6, NEC, SONY, PANASONIC, JVC, SAMSUNG, WHYNTER, AIWA_RC_T501, LG, MITSUBISHI, DISH, SHARP, DENON, SHERWOOD, RCMM, SANYO_LC7461, RC5X, NEC (non-strict), NIKAI, MAGIQUEST, LASERTAG, CARRIER_AC, MITSUBISHI2, HITACHI_AC1, HITACHI_AC2, GICABLE, LUTRON, PIONEER, LG2, SAMSUNG36, LEGOPF, INAX, DAIKIN152`<BR><BR>`"Bits":1..64` = required number of data bits<BR>&nbsp;&nbsp;&nbsp;&nbsp;for PANASONIC protocol this parameter is the the address, not the number of bits<BR><BR>`"Data":0x1..0xFFFFFFFFFFFFFFFF` = data frame as 64 bit hexadecimal.<BR>&nbsp;&nbsp;&nbsp;&nbsp;e.g., `IRsend {"Protocol":"NEC","Bits":32,"Data":0x8166817E}`<BR>**Or**<BR>`"DataLSB":0x1..0xFFFFFFFFFFFFFFFF` = data frame as 64 bit hexadecimal with LSB (each byte with bits reversed).<BR>&nbsp;&nbsp;&nbsp;&nbsp;e.g., `IRsend {"Protocol":"NEC","Bits":32,"Data":0x8166817E}`<BR>`DataLSB` comes handy with LSB-first (Least Significant Bit First) protocols like NEC, and makes decoding/encoding easier.<BR><BR>`"Repeat":0..<x>` if `0` send the frame once, if `>0` simulates a long press; Note: `"Repeat":1` sends the message twice.<BR><BR>Alternatively, you can send IR remote control codes using [RAW command encoding](IRSend-RAW-Encoding).
|See also|[`SetOption29`](#SetOption29) - Set IR received data format<BR>[`SetOption38`](#SetOption38) - Set IR received protocol sensitivity<BR>[`SetOption58`](#SetOption58) - [IR Raw data in JSON payload](https://github.com/arendst/Sonoff-Tasmota/issues/2116#issuecomment-440716483)
## Sending IRHVAC Commands
Command|Parameters
:---|:---
IRhvac<a id="IRhvac"></a>|Send HVAC IR remote control code as JSON payload<BR><BR>`IRhvac {"Vendor":"Mitsubishi_Heavy_152","Power":"On","Mode":"Hot","FanSpeed":3,"Temp":22.5}`<BR><BR>`"Protocol"` or `"Vendor"` (select one of the following): <BR>`COOLIX, DAIKIN, KELVINATOR, MITSUBISHI_AC, GREE, ARGO, TROTEC, TOSHIBA_AC, FUJITSU_AC, MIDEA, HAIER_AC, HITACHI_AC, HAIER_AC_YRW02, WHIRLPOOL_AC, SAMSUNG_AC, ELECTRA_AC, PANASONIC_AC, DAIKIN2, VESTEL_AC, TECO, TCL112AC, MITSUBISHI_HEAVY_88, MITSUBISHI_HEAVY_152, DAIKIN216, SHARP_AC, GOODWEATHER, DAIKIN160, NEOCLIMA, DAIKIN176, DAIKIN128`<BR><BR>`"Model":` Some HVAC have variants in protocols, this field allows to specify the variant.<BR>Ex: `(Fujitsu_AC = ARRAH2E\|ARDB1) (Panasonic_AC = LKE\|NKE\|DKE\|JKE\|CKP\|RKR) (Whirlpool_AC = DG11J13A\|DG11J104\|DG11J1-04\|DG11J191)`<BR><BR>`"Power"`:<UL><LI>`On, Yes, True, 1`</LI><LI>`Off, No, False, 0`</LI></UL>`"Mode"`:<UL><LI>`Off, Stop`</LI><LI>`Auto, Automatic`</LI><LI>`Cool, Cooling`</LI><LI>`Heat, Heating`</LI><LI>`Dry, Drying, Dehumidify`</LI><LI>`Fan, Fanonly, Fan_Only`</LI></UL>`"FanSpeed"`:<UL><LI>`Auto, Automatic`</LI><LI>`Min, Minimum, Lowest, 1`</LI><LI>`Low, 2`</LI><LI>`Med, Medium, Mid, 3`</LI><LI>`High, Hi, 4`</LI><LI>`Max, Maximum, Highest, 5`</LI></UL>`"SwingV"`: vertical swing of Fan<UL><LI>`Auto, Automatic, On, Swing`</LI><LI>`Off, Stop`</LI><LI>`Min, Minimum, Lowest, Bottom, Down`</LI><LI>`Low`</LI><LI>`Mid, Middle, Med, Medium, Centre, Center`</LI><LI>`High, Hi`</LI><LI>`Highest, Max, Maximum, Top, Up`</LI></UL>`"SwingH"`: horizontal swing of Fan<UL><LI>`Auto, Automatic, On, Swing`</LI><LI>`Off, Stop`</LI><LI>`LeftMax, Left Max, MaxLeft, Max Left, FarLeft, Far Left`</LI><LI>`Left`</LI><LI>`Mid, Middle, Med, Medium, Centre, Center`</LI><LI>`Right`</LI><LI>`RightMax, Right Max, MaxRight, Max Right, FarRight, Far Right`</LI><LI>`Wide`</LI></UL>`"Celsius"`: temperature is in Celsius (`"On"`) of Farenheit (`"Off"`)<BR>`"Temp"`: Temperature, can be float if supported by protocol<BR>`"Quiet"`: Quiet mode (`"On"` / `"Off"`)<BR>`"Turbo"`: Turbo mode (`"On"` / `"Off"`)<BR>`"Econo"`: Econo mode (`"On"` / `"Off"`)<BR>`"Light"`: Light (`"On"` / `"Off"`)<BR>`"Filter"`: Filter active (`"On"` / `"Off"`)<BR>`"Clean"`: Clean mode (`"On"` / `"Off"`)<BR>`"Beep"`: Beep active (`"On"` / `"Off"`)<BR>`"Sleep"`: Timer in seconds
## Receiving IR Commands
If you have an IR receiver plugged, you will be notified each time an IR message is seen. IRremoteESP8266 will try to decode the message against all supported protocols. If unrecognized, the `"Protocol":"UNKNOWN"` will be shown. In this case, the `"Data"` field contains a hash of the received message. The hash can't be used to send the a message, but the same hash will be produced by the same message.
Information on [Receiving Infrared Data](Receiving-Infrared-Remote-Control-Data)
Example: Pioneer Vol+
`20:24:34 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"PIONEER","Bits":64,"Data":"0xA55A50AFA55A50AF","DataLSB":"0xA55A0AF5A55A0AF5","Repeat":0}}`
Pioneer Vol-
`20:24:35 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"PIONEER","Bits":64,"Data":"0xA55AD02FA55AD02F","DataLSB":"0xA55A0BF4A55A0BF4","Repeat":0}}
`
Toshiba (NEC): Channel 1
`20:31:01 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"NEC","Bits":32,"Data":"0x02FD807F","DataLSB":"0x40BF01FE","Repeat":0}}`
Toshiba (NEC): Channel 2
`20:31:03 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"NEC","Bits":32,"Data":"0x02FD40BF","DataLSB":"0x40BF02FD","Repeat":0}}
`
Toshiba (NEC): Channel 3
`20:31:04 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"NEC","Bits":32,"Data":"0x02FDC03F","DataLSB":"0x40BF03FC","Repeat":0}}
`
As you can see above, `"DataLSB"` are easier to decode than `"Data"`. The third byte contains the command, and the fourth byte is the third with all bits reversed.
Example of HVAC message:
`20:43:04 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"MITSUBISHI_HEAVY_152","Bits":152,"Data":"0xAD513CE51A08F705FA02FDC03F08F700FF807F","Repeat":0,"IRHVAC":{"Vendor":"MITSUBISHI_HEAVY_152","Model":-1,"Power":"on","Mode":"auto","Celsius":"on","Temp":22,"FanSpeed":"medium","SwingV":"off","SwingH":"off","Quiet":"off","Turbo":"off","Econo":"off","Light":"off","Filter":"off","Clean":"off","Beep":"off","Sleep":-1}}}`
`20:44:04 MQT: tele/sonoff/IR1/RESULT = {"IrReceived":{"Protocol":"COOLIX","Bits":24,"Data":"0xB25F78","DataLSB":"0x4DFA1E","Repeat":0,"IRHVAC":{"Vendor":"COOLIX","Model":-1,"Power":"on","Mode":"auto","Celsius":"on","Temp":22,"FanSpeed":"medium","SwingV":"off","SwingH":"off","Quiet":"off","Turbo":"off","Econo":"off","Light":"on","Filter":"off","Clean":"on","Beep":"off","Sleep":-1}}}`