rtl_433/conf/rtl_433.example.conf

# config for rtl_433

# A valid config line is a keyword followed by an argument to the end of line.
# Whitespace around the keyword is ignored, whitespace is space and tab
# Comments start with a hash sign, no inline comments, empty lines are ok.
#
# Boolean options can be true/false, yes/no, on/off, enable/disable, or 1/0
#
# All options will be applied in the order given, overwriting previous values.
# Options given on the command line are then applied left to right.
#
# Config files can be nested/stacked (use multiple -c and config_file = ).
#
# If no -c option is given the first `rtl_433.conf` found of this list will be loaded:
# - in the current working dir, i.e. `./rtl_433.conf`
# - in XDG_CONFIG_HOME, e.g. `$HOME/.config/rtl_433/`
# - in SYSCONFDIR, usually PREFIX/etc, e.g. `/usr/local/etc/rtl_433/`

## General options

# as command line option:
#   [-v] Increase verbosity (can be used multiple times).
#        -v : verbose notice, -vv : verbose info, -vvv : debug, -vvvv : trace.
# 1=fatal, 2=critical, 3=error, 4=warning (default), 5=notice, 6=info, 7=debug, 8=trace
#verbose

# as command line option:
#   [-c <path>] Read config options from a file
#config_file

## Tuner options

# as command line option:
#   [-d <RTL-SDR USB device index>] (default: 0)
#   [-d :<RTL-SDR USB device serial (can be set with rtl_eeprom -s)>]
#   [-d "" Open default SoapySDR device
#   [-d driver=rtlsdr Open e.g. specific SoapySDR device
# default is "0" (RTL-SDR) or "" (SoapySDR)
#device        0

# as command line option:
#   [-g <gain>] (default: 0 for auto)
# For RTL-SDR: gain in tenths of dB ("0" is auto).
# For SoapySDR: gain in dB for automatic distribution ("" is auto), or string of gain elements.
# E.g. "LNA=20,TIA=8,PGA=2" for LimeSDR.
#gain          0

# as command line option:
#   [-t <settings>] apply a list of keyword=value settings for SoapySDR devices
# E.g. "antenna=A,bandwidth=4.5M,rfnotch_ctrl=false"
#settings      antenna=A,bandwidth=4.5M

# as command line option:
#   [-f <frequency>] [-f...] Receive frequency(s) (default: 433920000 Hz)
# default is "433.92M", other reasonable values are 315M, 345M, 915M and 868M
#frequency     433.92M

# as command line option:
#   [-H <seconds>] Hop interval for polling of multiple frequencies (default: 600 seconds)
# default is "600" seconds, only used when multiple frequencies are given
#hop_interval  600

# as command line option:
#   [-p <ppm_error] Correct rtl-sdr tuner frequency offset error (default: 0)
# default is "0"
#ppm_error     0

# as command line option:
#   [-s <sample rate>] Set sample rate (default: 250000 Hz)
# default is "250k", other valid settings are 1024k, 2048k, 3200k
#sample_rate   250k

# as command line option:
#   [-D restart | pause | quit | manual] Input device run mode options.
# default is "quit"
#device_mode   quit

## Demodulator options

# as command line option:
#   [-R <device>] Enable only the specified device decoding protocol (can be used multiple times)
# see "protocol" section below.

# as command line option:
#   [-X <spec> | help] Add a general purpose decoder (prepend -R 0 to disable all decoders)
# see "decoder" section below.

# as command line option:
#   [-Y auto | classic | minmax] FSK pulse detector mode.
#pulse_detect auto

# as command line option:
#   [-Y level=<dB level>] Manual detection level used to determine pulses (-1.0 to -30.0) (0=auto).
#pulse_detect level=0

# as command line option:
#   [-Y minlevel=<dB level>] Manual minimum detection level used to determine pulses (-1.0 to -99.0).
#pulse_detect minlevel=-12

# as command line option:
#   [-Y minsnr=<dB level>] Minimum SNR to determine pulses (1.0 to 99.0).
#pulse_detect minsnr=9

# as command line option:
#   [-Y autolevel] Set minlevel automatically based on average estimated noise.
pulse_detect autolevel

# as command line option:
#   [-Y squelch] Skip frames below estimated noise level to lower cpu load.
pulse_detect squelch

# as command line option:
#   [-Y ampest | magest] Choose amplitude or magnitude level estimator.
pulse_detect magest

# as command line option:
#   [-n <value>] Specify number of samples to take (each sample is 2 bytes: 1 each of I & Q)
#samples_to_read 0

## Analyze/Debug options

# as command line option:
#   [-a] Analyze mode. Print a textual description of the signal. Disables decoding
#analyze false

# as command line option:
#   [-A] Pulse Analyzer. Enable pulse analysis and decode attempt
#analyze_pulses false

# as command line option:
#   [-b] Out block size: 262144 (default)
#out_block_size

# as command line option:
#   [-M time[:<options>]|protocol|level|noise[:<secs>]|stats|bits] Add various metadata to every output line.
# Use "time" to add current date and time meta data (preset for live inputs).
# Use "time:rel" to add sample position meta data (preset for read-file and stdin).
# Use "time:unix" to show the seconds since unix epoch as time meta data. This is always UTC.
# Use "time:iso" to show the time with ISO-8601 format (YYYY-MM-DD"T"hh:mm:ss).
# Use "time:off" to remove time meta data.
# Use "time:usec" to add microseconds to date time meta data.
# Use "time:tz" to output time with timezone offset.
# Use "time:utc" to output time in UTC.
#   (this may also be accomplished by invocation with TZ environment variable set).
#   "usec" and "utc" can be combined with other options, eg. "time:iso:utc" or "time:unix:usec".
# Use "protocol" / "noprotocol" to output the decoder protocol number meta data.
# Use "level" to add Modulation, Frequency, RSSI, SNR, and Noise meta data.
# Use "noise[:secs]" to report estimated noise level at intervals (default: 10 seconds).
# Use "stats[:[<level>][:<interval>]]" to report statistics (default: 600 seconds).
#   level 0: no report, 1: report successful devices, 2: report active devices, 3: report all
# Use "bits" to add bit representation to code outputs (for debug).
report_meta level
report_meta noise
report_meta stats
report_meta time:usec
report_meta protocol

# as command line option:
#   [-y <code>] Verify decoding of demodulated test data (e.g. "{25}fb2dd58") with enabled devices
#test_data {25}fb2dd58

## File I/O options

# as command line option:
#   [-S none|all|unknown|known] Signal auto save. Creates one file per signal.
#     Note: Saves raw I/Q samples (uint8 pcm, 2 channel). Preferred mode for generating test files.
#signal_grabber none

# as command line option:
#   [-r <filename>] Read data from input file instead of a receiver
#read_file FILENAME.cu8

# as command line option:
#   [-w <filename>] Save data stream to output file (a '-' dumps samples to stdout)
#write_file FILENAME.cu8

# as command line option:
#   [-W <filename>] Save data stream to output file, overwrite existing file
#overwrite_file FILENAME.cu8

## Data output options

# as command line option:
#   [-F log|kv|json|csv|mqtt|influx|syslog|trigger|null] Produce decoded output in given format.
#     Without this option the default is LOG and KV output. Use "-F null" to remove the default.
#     Append output to file with :<filename> (e.g. -F csv:log.csv), defaults to stdout.
#     Specify MQTT server with e.g. -F mqtt://localhost:1883
#     Add MQTT options with e.g. -F "mqtt://host:1883,opt=arg"
#     MQTT options are: user=foo, pass=bar, retain[=0|1], <format>[=topic]
#     Supported MQTT formats: (default is all)
#       events: posts JSON event data
#       states: posts JSON state data
#       devices: posts device and sensor info in nested topics
#     The topic string will expand keys like [/model]
#     E.g. -F "mqtt://localhost:1883,user=USERNAME,pass=PASSWORD,retain=0,devices=rtl_433[/id]"
#     With MQTT each rtl_433 instance needs a distinct driver selection. The MQTT Client-ID is computed from the driver string.
#     If you use multiple RTL-SDR, perhaps set a serial and select by that (helps not to get the wrong antenna).
#     Specify InfluxDB 2.0 server with e.g. -F "influx://localhost:9999/api/v2/write?org=<org>&bucket=<bucket>,token=<authtoken>"
#     Specify InfluxDB 1.x server with e.g. -F "influx://localhost:8086/write?db=<db>&p=<password>&u=<user>"
#       Additional parameter -M time:unix:usec:utc for correct timestamps in InfluxDB recommended
#     Specify host/port for syslog with e.g. -F syslog:127.0.0.1:1514
# default is "kv", multiple outputs can be used.
output json

# as command line option:
#   [-K FILE | PATH | <tag> | <key>=<tag>] Add an expanded token or fixed tag to every output line.
# If <tag> is "FILE" or "PATH" an expanded token will be added.
# The <tag> can also be a GPSd URL, e.g.
#   -K gpsd,lat,lon" (report lat and lon keys from local gpsd)
#   -K loc=gpsd,lat,lon" (report lat and lon in loc object)
#   -K gpsd" (full json TPV report, in default "gps" object)
#   -K foo=gpsd://127.0.0.1:2947" (with key and address)
#   -K bar=gpsd,nmea" (NMEA default GPGGA report)
#   -K rmc=gpsd,nmea,filter='$GPRMC'" (NMEA GPRMC report)
# Also <tag> can be a generic tcp address, e.g.
#   -K foo=tcp:localhost:4000" (read lines as TCP client)
#   -K bar=tcp://127.0.0.1:3000,init='subscribe tags\\r\\n'"
#   -K baz=tcp://127.0.0.1:5000,filter='a prefix to match'"
#output_tag mytag

# as command line option:
#   [-C] native|si|customary Convert units in decoded output.
# default is "native"
convert si

# as command line option:
#   [-T] specify number of seconds to run
#duration 0

# as command line option:
#   [-E hop | quit] Hop/Quit after outputting successful event(s)
#stop_after_successful_events false

## Protocols to enable (command line option "-R")

  protocol 1   # Silvercrest Remote Control
  protocol 2   # Rubicson, TFA 30.3197 or InFactory PT-310 Temperature Sensor
  protocol 3   # Prologue, FreeTec NC-7104, NC-7159-675 temperature sensor
  protocol 4   # Waveman Switch Transmitter
# protocol 6   # ELV EM 1000
# protocol 7   # ELV WS 2000
  protocol 8   # LaCrosse TX Temperature / Humidity Sensor
  protocol 10  # Acurite 896 Rain Gauge
  protocol 11  # Acurite 609TXC Temperature and Humidity Sensor
  protocol 12  # Oregon Scientific Weather Sensor
# protocol 13  # Mebus 433
# protocol 14  # Intertechno 433
  protocol 15  # KlikAanKlikUit Wireless Switch
  protocol 16  # AlectoV1 Weather Sensor (Alecto WS3500 WS4500 Ventus W155/W044 Oregon)
  protocol 17  # Cardin S466-TX2
  protocol 18  # Fine Offset Electronics, WH2, WH5, Telldus Temperature/Humidity/Rain Sensor
  protocol 19  # Nexus, FreeTec NC-7345, NX-3980, Solight TE82S, TFA 30.3209 temperature/humidity sensor
  protocol 20  # Ambient Weather F007TH, TFA 30.3208.02, SwitchDocLabs F016TH temperature sensor
  protocol 21  # Calibeur RF-104 Sensor
  protocol 22  # X10 RF
  protocol 23  # DSC Security Contact
# protocol 24  # Brennenstuhl RCS 2044
  protocol 25  # Globaltronics GT-WT-02 Sensor
  protocol 26  # Danfoss CFR Thermostat
  protocol 29  # Chuango Security Technology
  protocol 30  # Generic Remote SC226x EV1527
  protocol 31  # TFA-Twin-Plus-30.3049, Conrad KW9010, Ea2 BL999
  protocol 32  # Fine Offset Electronics WH1080/WH3080 Weather Station
  protocol 33  # WT450, WT260H, WT405H
  protocol 34  # LaCrosse WS-2310 / WS-3600 Weather Station
  protocol 35  # Esperanza EWS
  protocol 36  # Efergy e2 classic
# protocol 37  # Inovalley kw9015b, TFA Dostmann 30.3161 (Rain and temperature sensor)
  protocol 38  # Generic temperature sensor 1
  protocol 39  # WG-PB12V1 Temperature Sensor
  protocol 40  # Acurite 592TXR temp/humidity, 592TX temp, 5n1, 3n1, Atlas weather station, 515 fridge/freezer, 6045 lightning, 899 rain, 1190/1192 leak
  protocol 41  # Acurite 986 Refrigerator / Freezer Thermometer
  protocol 42  # HIDEKI TS04 Temperature, Humidity, Wind and Rain Sensor
  protocol 43  # Watchman Sonic / Apollo Ultrasonic / Beckett Rocket oil tank monitor
  protocol 44  # CurrentCost Current Sensor
  protocol 45  # emonTx OpenEnergyMonitor
  protocol 46  # HT680 Remote control
  protocol 47  # Conrad S3318P, FreeTec NC-5849-913 temperature humidity sensor
  protocol 48  # Akhan 100F14 remote keyless entry
  protocol 49  # Quhwa
  protocol 50  # OSv1 Temperature Sensor
  protocol 51  # Proove / Nexa / KlikAanKlikUit Wireless Switch
  protocol 52  # Bresser Thermo-/Hygro-Sensor 3CH
  protocol 53  # Springfield Temperature and Soil Moisture
  protocol 54  # Oregon Scientific SL109H Remote Thermal Hygro Sensor
  protocol 55  # Acurite 606TX Temperature Sensor
  protocol 56  # TFA pool temperature sensor
  protocol 57  # Kedsum Temperature & Humidity Sensor, Pearl NC-7415
  protocol 58  # Blyss DC5-UK-WH
  protocol 59  # Steelmate TPMS
  protocol 60  # Schrader TPMS
# protocol 61  # LightwaveRF
# protocol 62  # Elro DB286A Doorbell
  protocol 63  # Efergy Optical
# protocol 64  # Honda Car Key
  protocol 67  # Radiohead ASK
  protocol 68  # Kerui PIR / Contact Sensor
  protocol 69  # Fine Offset WH1050 Weather Station
  protocol 70  # Honeywell Door/Window Sensor, 2Gig DW10/DW11, RE208 repeater
  protocol 71  # Maverick ET-732/733 BBQ Sensor
# protocol 72  # RF-tech
  protocol 73  # LaCrosse TX141-Bv2, TX141TH-Bv2, TX141-Bv3, TX141W, TX145wsdth, (TFA, ORIA) sensor
  protocol 74  # Acurite 00275rm,00276rm Temp/Humidity with optional probe
  protocol 75  # LaCrosse TX35DTH-IT, TFA Dostmann 30.3155 Temperature/Humidity sensor
  protocol 76  # LaCrosse TX29IT, TFA Dostmann 30.3159.IT Temperature sensor
  protocol 77  # Vaillant calorMatic VRT340f Central Heating Control
  protocol 78  # Fine Offset Electronics, WH25, WH32, WH32B, WN32B, WH24, WH65B, HP1000, Misol WS2320 Temperature/Humidity/Pressure Sensor
  protocol 79  # Fine Offset Electronics, WH0530 Temperature/Rain Sensor
  protocol 80  # IBIS beacon
  protocol 81  # Oil Ultrasonic STANDARD FSK
  protocol 82  # Citroen TPMS
  protocol 83  # Oil Ultrasonic STANDARD ASK
  protocol 84  # Thermopro TP11 Thermometer
  protocol 85  # Solight TE44/TE66, EMOS E0107T, NX-6876-917
  protocol 86  # Wireless Smoke and Heat Detector GS 558
  protocol 87  # Generic wireless motion sensor
  protocol 88  # Toyota TPMS
  protocol 89  # Ford TPMS
  protocol 90  # Renault TPMS
  protocol 91  # inFactory, nor-tec, FreeTec NC-3982-913 temperature humidity sensor
  protocol 92  # FT-004-B Temperature Sensor
  protocol 93  # Ford Car Key
  protocol 94  # Philips outdoor temperature sensor (type AJ3650)
  protocol 95  # Schrader TPMS EG53MA4, PA66GF35
  protocol 96  # Nexa
  protocol 97  # ThermoPro TP08/TP12/TP20 thermometer
  protocol 98  # GE Color Effects
  protocol 99  # X10 Security
  protocol 100 # Interlogix GE UTC Security Devices
# protocol 101 # Dish remote 6.3
  protocol 102 # SimpliSafe Home Security System (May require disabling automatic gain for KeyPad decodes)
  protocol 103 # Sensible Living Mini-Plant Moisture Sensor
  protocol 104 # Wireless M-Bus, Mode C&T, 100kbps (-f 868.95M -s 1200k)
  protocol 105 # Wireless M-Bus, Mode S, 32.768kbps (-f 868.3M -s 1000k)
# protocol 106 # Wireless M-Bus, Mode R, 4.8kbps (-f 868.33M)
# protocol 107 # Wireless M-Bus, Mode F, 2.4kbps
  protocol 108 # Hyundai WS SENZOR Remote Temperature Sensor
  protocol 109 # WT0124 Pool Thermometer
  protocol 110 # PMV-107J (Toyota) TPMS
  protocol 111 # Emos TTX201 Temperature Sensor
  protocol 112 # Ambient Weather TX-8300 Temperature/Humidity Sensor
  protocol 113 # Ambient Weather WH31E Thermo-Hygrometer Sensor, EcoWitt WH40 rain gauge, WS68 weather station
  protocol 114 # Maverick et73
  protocol 115 # Honeywell ActivLink, Wireless Doorbell
  protocol 116 # Honeywell ActivLink, Wireless Doorbell (FSK)
# protocol 117 # ESA1000 / ESA2000 Energy Monitor
# protocol 118 # Biltema rain gauge
  protocol 119 # Bresser Weather Center 5-in-1
  protocol 120 # Digitech XC-0324 / AmbientWeather FT005TH temp/hum sensor
  protocol 121 # Opus/Imagintronix XT300 Soil Moisture
  protocol 122 # FS20 / FHT
# protocol 123 # Jansite TPMS Model TY02S
  protocol 124 # LaCrosse/ELV/Conrad WS7000/WS2500 weather sensors
  protocol 125 # TS-FT002 Wireless Ultrasonic Tank Liquid Level Meter With Temperature Sensor
  protocol 126 # Companion WTR001 Temperature Sensor
  protocol 127 # Ecowitt Wireless Outdoor Thermometer WH53/WH0280/WH0281A
  protocol 128 # DirecTV RC66RX Remote Control
# protocol 129 # Eurochron temperature and humidity sensor
  protocol 130 # IKEA Sparsnas Energy Meter Monitor
  protocol 131 # Microchip HCS200/HCS300 KeeLoq Hopping Encoder based remotes
  protocol 132 # TFA Dostmann 30.3196 T/H outdoor sensor
  protocol 133 # Rubicson 48659 Thermometer
  protocol 134 # AOK Weather Station rebrand Holman Industries iWeather WS5029, Conrad AOK-5056, Optex 990018
  protocol 135 # Philips outdoor temperature sensor (type AJ7010)
  protocol 136 # ESIC EMT7110 power meter
  protocol 137 # Globaltronics QUIGG GT-TMBBQ-05
  protocol 138 # Globaltronics GT-WT-03 Sensor
  protocol 139 # Norgo NGE101
  protocol 140 # Elantra2012 TPMS
  protocol 141 # Auriol HG02832, HG05124A-DCF, Rubicson 48957 temperature/humidity sensor
  protocol 142 # Fine Offset Electronics/ECOWITT WH51, SwitchDoc Labs SM23 Soil Moisture Sensor
  protocol 143 # Holman Industries iWeather WS5029 weather station (older PWM)
  protocol 144 # TBH weather sensor
  protocol 145 # WS2032 weather station
  protocol 146 # Auriol AFW2A1 temperature/humidity sensor
  protocol 147 # TFA Drop Rain Gauge 30.3233.01
  protocol 148 # DSC Security Contact (WS4945)
  protocol 149 # ERT Standard Consumption Message (SCM)
# protocol 150 # Klimalogg
  protocol 151 # Visonic powercode
  protocol 152 # Eurochron EFTH-800 temperature and humidity sensor
  protocol 153 # Cotech 36-7959, SwitchDocLabs FT020T wireless weather station with USB
  protocol 154 # Standard Consumption Message Plus (SCMplus)
  protocol 155 # Fine Offset Electronics WH1080/WH3080 Weather Station (FSK)
  protocol 156 # Abarth 124 Spider TPMS
  protocol 157 # Missil ML0757 weather station
  protocol 158 # Sharp SPC775 weather station
  protocol 159 # Insteon
  protocol 160 # ERT Interval Data Message (IDM)
  protocol 161 # ERT Interval Data Message (IDM) for Net Meters
# protocol 162 # ThermoPro-TX2 temperature sensor
  protocol 163 # Acurite 590TX Temperature with optional Humidity
  protocol 164 # Security+ 2.0 (Keyfob)
  protocol 165 # TFA Dostmann 30.3221.02 T/H Outdoor Sensor
  protocol 166 # LaCrosse Technology View LTV-WSDTH01 Breeze Pro Wind Sensor
  protocol 167 # Somfy RTS
  protocol 168 # Schrader TPMS SMD3MA4 (Subaru) 3039 (Infiniti, Nissan, Renault)
# protocol 169 # Nice Flor-s remote control for gates
  protocol 170 # LaCrosse Technology View LTV-WR1 Multi Sensor
  protocol 171 # LaCrosse Technology View LTV-TH Thermo/Hygro Sensor
  protocol 172 # Bresser Weather Center 6-in-1, 7-in-1 indoor, soil, new 5-in-1, 3-in-1 wind gauge, Froggit WH6000, Ventus C8488A
  protocol 173 # Bresser Weather Center 7-in-1, Air Quality PM2.5/PM10 7009970, CO2 7009977, HCHO/VOC 7009978 sensors
  protocol 174 # EcoDHOME Smart Socket and MCEE Solar monitor
  protocol 175 # LaCrosse Technology View LTV-R1, LTV-R3 Rainfall Gauge, LTV-W1/W2 Wind Sensor
  protocol 176 # BlueLine Innovations Power Cost Monitor
  protocol 177 # Burnhard BBQ thermometer
  protocol 178 # Security+ (Keyfob)
  protocol 179 # Cavius smoke, heat and water detector
  protocol 180 # Jansite TPMS Model Solar
  protocol 181 # Amazon Basics Meat Thermometer
  protocol 182 # TFA Marbella Pool Thermometer
  protocol 183 # Auriol AHFL temperature/humidity sensor
  protocol 184 # Auriol AFT 77 B2 temperature sensor
  protocol 185 # Honeywell CM921 Wireless Programmable Room Thermostat
  protocol 186 # Hyundai TPMS (VDO)
  protocol 187 # RojaFlex shutter and remote devices
  protocol 188 # Marlec Solar iBoost+ sensors
  protocol 189 # Somfy io-homecontrol
  protocol 190 # Ambient Weather WH31L (FineOffset WH57) Lightning-Strike sensor
  protocol 191 # Markisol, E-Motion, BOFU, Rollerhouse, BF-30x, BF-415 curtain remote
  protocol 192 # Govee Water Leak Detector H5054, Door Contact Sensor B5023
  protocol 193 # Clipsal CMR113 Cent-a-meter power meter
  protocol 194 # Inkbird ITH-20R temperature humidity sensor
  protocol 195 # RainPoint soil temperature and moisture sensor
  protocol 196 # Atech-WS308 temperature sensor
  protocol 197 # Acurite Grill/Meat Thermometer 01185M
# protocol 198 # EnOcean ERP1
  protocol 199 # Linear Megacode Garage/Gate Remotes
# protocol 200 # Auriol 4-LD5661/4-LD5972/4-LD6313 temperature/rain sensors
  protocol 201 # Unbranded SolarTPMS for trucks
  protocol 202 # Funkbus / Instafunk (Berker, Gira, Jung)
  protocol 203 # Porsche Boxster/Cayman TPMS
  protocol 204 # Jasco/GE Choice Alert Security Devices
  protocol 205 # Telldus weather station FT0385R sensors
  protocol 206 # LaCrosse TX34-IT rain gauge
  protocol 207 # SmartFire Proflame 2 remote control
  protocol 208 # AVE TPMS
  protocol 209 # SimpliSafe Gen 3 Home Security System
  protocol 210 # Yale HSA (Home Security Alarm), YES-Alarmkit
  protocol 211 # Regency Ceiling Fan Remote (-f 303.75M to 303.96M)
  protocol 212 # Renault 0435R TPMS
  protocol 213 # Fine Offset Electronics WS80 weather station
  protocol 214 # EMOS E6016 weatherstation with DCF77
  protocol 215 # Emax W6, rebrand Altronics x7063/4, Optex 990040/50/51, Orium 13093/13123, Infactory FWS-1200, Newentor Q9, Otio 810025, Protmex PT3390A, Jula Marquant 014331/32, TechniSat IMETEO X6 76-4924-00, Weather Station or temperature/humidity sensor
# protocol 216 # ANT and ANT+ devices
  protocol 217 # EMOS E6016 rain gauge
  protocol 218 # Microchip HCS200/HCS300 KeeLoq Hopping Encoder based remotes (FSK)
  protocol 219 # Fine Offset Electronics WH45 air quality sensor
  protocol 220 # Maverick XR-30 BBQ Sensor
  protocol 221 # Fine Offset Electronics WN34 temperature sensor
  protocol 222 # Rubicson Pool Thermometer 48942
  protocol 223 # Badger ORION water meter, 100kbps (-f 916.45M -s 1200k)
  protocol 224 # GEO minim+ energy monitor
  protocol 225 # TyreGuard 400 TPMS
  protocol 226 # Kia TPMS (-s 1000k)
  protocol 227 # SRSmith Pool Light Remote Control SRS-2C-TX (-f 915M)
  protocol 228 # Neptune R900 flow meters
  protocol 229 # WEC-2103 temperature/humidity sensor
  protocol 230 # Vauno EN8822C
  protocol 231 # Govee Water Leak Detector H5054
  protocol 232 # TFA Dostmann 14.1504.V2 Radio-controlled grill and meat thermometer
# protocol 233 # CED7000 Shot Timer
  protocol 234 # Watchman Sonic Advanced / Plus, Tekelek
  protocol 235 # Oil Ultrasonic SMART FSK
  protocol 236 # Gasmate BA1008 meat thermometer
  protocol 237 # Flowis flow meters
  protocol 238 # Wireless M-Bus, Mode T, 32.768kbps (-f 868.3M -s 1000k)
  protocol 239 # Revolt NC-5642 Energy Meter
  protocol 240 # LaCrosse TX31U-IT, The Weather Channel WS-1910TWC-IT
  protocol 241 # EezTire E618, Carchet TPMS, TST-507 TPMS
# protocol 242 # Baldr / RainPoint rain gauge.
  protocol 243 # Celsia CZC1 Thermostat
  protocol 244 # Fine Offset Electronics WS90 weather station
# protocol 245 # ThermoPro TX-2C Thermometer and Humidity sensor
  protocol 246 # TFA 30.3151 Weather Station
  protocol 247 # Bresser water leakage
# protocol 248 # Nissan TPMS
  protocol 249 # Bresser lightning
  protocol 250 # Schou 72543 Day Rain Gauge, Motonet MTX Rain, MarQuant Rain Gauge, TFA Dostmann 30.3252.01/47.3006.01 Rain Gauge and Thermometer, ADE WS1907
  protocol 251 # Fine Offset / Ecowitt WH55 water leak sensor
  protocol 252 # BMW Gen5 TPMS, multi-brand HUF, Continental, Schrader/Sensata
  protocol 253 # Watts WFHT-RF Thermostat
  protocol 254 # Thermor DG950 weather station
  protocol 255 # Mueller Hot Rod water meter
  protocol 256 # ThermoPro TP28b Super Long Range Wireless Meat Thermometer for Smoker BBQ Grill

## Flex devices (command line option "-X")

# Some general decoder definitions for various devices, enable as needed.
#
# For details about decoder definition run "rtl_433 -X help"
#

# If you enable these decoders you'll likely want to add ",match=<YOUR-DEVICE-ID>"

# Elro DB270 - wireless doorbell
#
# Device information and test files:
# https://github.com/merbanan/rtl_433_tests/tree/master/tests/elro/db270/01
#
# Output sample:
# {"time" : "2018-02-14 19:11:16", "model" : "Elro_DB270", "count" : 4, "num_rows" : 4,
#  "rows" : [{"len" : 25, "data" : "ebeaaa8"}, {"len" : 25, "data" : "ebeaaa8"},
#            {"len" : 25, "data" : "ebeaaa8"}, {"len" : 25, "data" : "ebeaaa8"}]}
#
#decoder n=Elro_DB270,m=OOK_PWM,s=300,l=930,r=11000,g=1500,repeats>=4,bits=25

# Euroster 3000TX - programmable room thermostat
#
# Device information and test files:
# https://github.com/merbanan/rtl_433_tests/tree/master/tests/euroster/3000tx/01
#
# Output sample:
# {"time" : "2018-02-14 19:20:20", "model" : "Euroster_3000TX", "count" : 1, "num_rows" : 1,
#  "rows" : [{"len" : 32, "data" : "41150515"}]}
#
#decoder n=Euroster_3000TX,m=OOK_MC_ZEROBIT,s=1000,r=4800,bits=32

# Byron BY series door bell
#
# Device information and test files:
# https://github.com/merbanan/rtl_433_tests/tree/master/tests/Byron-BY101 and Byron-BY34
#
# Output sample:
# {"time" : "@1.572864s", "model" : "doorbell#1", "count" : 25, "num_rows" : 25, "rows" : [{"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}, {"len" : 21, "data" : "e768c8"}]}
#decoder n=Byron_BY_Doorbell,m=OOK_PWM,s=500,l=1000,r=3300,g=1200,repeats>=4,bits=21,match={2}0x3

# Kerui alarm system (PIR and door sensors)
#  short is 333 us
#  long is 972 us
#  packet gap 11000 us
#decoder n=Kerui,m=OOK_PWM,s=333,l=972,r=11000,g=1100,bits=25,invert,get={20}:state,get=@20:{4}:event:[10:pir 14:open 7:close 11:tamper 15:battery_low]

# Golden Security GS-WDS07 door and window sensor
#  short is 476 us + 1344 us
#  long is 1364 us + 448 us
#  packet gap 13972 us
#decoder n=gswds07,m=OOK_PWM,s=476,l=1364,r=15000,g=1600,bits>=24,bits<=25,invert

# Generic SCV2260 4-button remote (see rtl_433_tests/tests/generic_remote/01)
#  short is 472 us + 1412 us
#  long is 1428 us + 472 us
#decoder n=generic_remote_01,m=OOK_PWM,s=472,l=1428,r=1800,g=1600,bits=25,invert,match=13cd,get=@16:{8}:event:[192:arm 12:disarm 3:home 48:sos]

# Generic PT2260 PIR (see rtl_433_tests/tests/PT2262/01)
#  short is 440 us + 1536 us
#  long is 1428 us + 548 us
#  packet gap 15348 us
#decoder n=pt2260_pir,m=OOK_PWM,s=440,l=1428,r=16000,g=1700,bits=25,invert,match=755555,countonly