Odczyt wodomierza z nakładką flowis+

Witam.
Mam wodomierz z nakładką flowis+ eco4
numery 340083817 4/2024 v34.C.07

Chciałbym odczytać stan licznika i dodać to do HASS (hass chodzi na home assistant yellow).

Wg. producenta nakładka nadaje na częstotliwości 868MHz:

Zakupiłem rtl-sdr:

Oraz antenę:

Antenę mam ustawioną wg. kalkulatora:

Mam zainstalowy dodatek rtl-433 oraz wmbusmeters (oczywiście oba nie chodzą równocześnie).

Niestety żaden nie pokazuje danych wysyłanych od licznika (a sprzęt działa bo otrzymałem dane z pilota samochodowego sąsiada).

Config i logi rtl_433:

# This is an empty template for configuring rtl_433. mqtt information will be
# automatically added. Create multiple files ending in '.conf.template' to
# manage multiple rtl_433 radios, being sure to set the 'device' setting.
# https://github.com/merbanan/rtl_433/blob/master/conf/rtl_433.example.conf

output mqtt://${host}:${port},user=${username},pass=${password},retain=${retain}

# Uncomment the following line to also enable the default "table" output to the
# addon logs.

output kv
output json

# frequency     345M
# frequency     433.92M
frequency     868M
# frequency     868.3M
# frequency     868.95M
# frequency     915M

# hop_interval  122

# sample_rate   500k
sample_rate   250k

report_meta level
report_meta noise
report_meta stats
report_meta time:usec
report_meta protocol

signal_grabber none



## 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, 5n1 Weather Station, 6045 Lightning, 899 Rain, 3N1, Atlas
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, WH32B, WH24, WH65B, HP1000 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 868950000 -s 1200000)
protocol 105 # Wireless M-Bus, Mode S, 32.768kbps (-f 868300000 -s 1000000)
protocol 106 # Wireless M-Bus, Mode R, 4.8kbps (-f 868330000)
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
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 temperature sensor
protocol 121 # Opus/Imagintronix XT300 Soil Moisture
protocol 122 # FS20
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 # Holman Industries iWeather WS5029 weather station (newer PCM)
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 oraz Ragova Sianlogic
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)
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
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 temperature/rain sensor
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 # Altronics X7064 temperature and 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 916450000 -s 1200000)
protocol 224 # EMOS E6016 rain gauge
protocol 225 # Microchip HCS200/HCS300 KeeLoq Hopping Encoder based remotes (FSK)
protocol 226 # Fine Offset Electronics WH45 air quality sensor
protocol 227 # Maverick XR-30 BBQ Sensor
protocol 228 # Fine Offset Electronics WN34 temperature sensor
protocol 229 # Rubicson Pool Thermometer 48942
protocol 230 # Badger ORION water meter, 100kbps (-f 916450000 -s 1200000)
protocol 231 # EMOS E6016 rain gauge
protocol 232 # Microchip HCS200/HCS300 KeeLoq Hopping Encoder based remotes (FSK)
protocol 233 # Fine Offset Electronics WH45 air quality sensor
protocol 234 # Maverick XR-30 BBQ Sensor
protocol 235 # Fine Offset Electronics WN34 temperature sensor
protocol 236 # Rubicson Pool Thermometer 48942
protocol 237 # Badger ORION water meter, 100kbps (-f 916450000 -s 1200000)
protocol 238 # EMOS E6016 rain gauge
protocol 239 # Microchip HCS200/HCS300 KeeLoq Hopping Encoder based remotes (FSK)
protocol 240 # Fine Offset Electronics WH45 air quality sensor
protocol 241 # Maverick XR-30 BBQ Sensor
protocol 242 # Fine Offset Electronics WN34 temperature sensor
protocol 243 # Rubicson Pool Thermometer 48942
protocol 244 # Badger ORION water meter, 100kbps (-f 916450000 -s 1200000)
protocol 245 # EMOS E6016 rain gauge
protocol 246 # Microchip HCS200/HCS300 KeeLoq Hopping Encoder based remotes (FSK)
protocol 247 # Fine Offset Electronics WH45 air quality sensor
protocol 248 # Maverick XR-30 BBQ Sensor
protocol 249 # Fine Offset Electronics WN34 temperature sensor
protocol 250 # Rubicson Pool Thermometer 48942
[rtl_433] rtl_433 version 23.11 branch  at 202311281352 inputs file rtl_tcp RTL-SDR
[rtl_433] MQTT: Publishing MQTT data to core-mosquitto port 1883
[rtl_433] MQTT: Publishing device info to MQTT topic "rtl_433/9b13b3f4-rtl433/devices[/type][/model][/subtype][/channel][/id]".
[rtl_433] MQTT: Publishing events info to MQTT topic "rtl_433/9b13b3f4-rtl433/events".
[rtl_433] MQTT: Publishing states info to MQTT topic "rtl_433/9b13b3f4-rtl433/states".
[rtl_433] 
[rtl_433] New defaults active, use "-Y classic -s 250k" if you need the old defaults
[rtl_433] 
[rtl_433] rtl_433: warning: 106 "Wireless M-Bus, Mode R, 4.8kbps (-f 868.33M)" does not support CSV output
[rtl_433] rtl_433: warning: 107 "Wireless M-Bus, Mode F, 2.4kbps" does not support CSV output
[rtl_433] Found Rafael Micro R828D tuner
[rtl_433] [SDR] Using device 0: RTLSDRBlog, Blog V4, SN: 00000001, "Generic RTL2832U OEM"
[rtl_433] Exact sample rate is: 250000.000414 Hz
[rtl_433] [sdr_set_center_freq] Failed to set center freq.
[rtl_433] Allocating 15 zero-copy buffers
[rtl_433] [Auto Level] Current noise level -28.4 dB, estimated noise -26.8 dB
[rtl_433] [Auto Level] Current noise level -28.5 dB, estimated noise -28.3 dB
[rtl_433] [Auto Level] Current noise level -28.5 dB, estimated noise -28.5 dB
[rtl_433] [Auto Level] Current noise level -28.5 dB, estimated noise -28.5 dB
[rtl_433] _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 
[rtl_433] 
[rtl_433] time      : 2025-01-20 07:46:30.121175
[rtl_433] enabled   : 242
[rtl_433] since     : 2025-01-20T07:36:30
[rtl_433] frames    : 
[rtl_433] 
[rtl_433] count     : 0
[rtl_433] fsk       : 0
[rtl_433] events    : 0
[rtl_433] stats     : 
[rtl_433] {"time" : "2025-01-20 07:46:30.121175", "enabled" : 242, "since" : "2025-01-20T07:36:30", "frames" : {"count" : 0, "fsk" : 0, "events" : 0}, "stats" : []}
[rtl_433] [Auto Level] Current noise level -29.1 dB, estimated noise -29.1 dB
[rtl_433] [Auto Level] Current noise level -29.1 dB, estimated noise -29.1 dB
[rtl_433] [Auto Level] Current noise level -29.1 dB, estimated noise -29.1 dB

Config i logi wmbusmeters:

device=rtlwmbus:868M:t1
donotprobe=/dev/bus/usb/001/003
format=json
logfile=/dev/stdout
loglevel=normal
logtelegrams=false
shell=/wmbusmeters/mosquitto_pub.sh "wmbusmeters/$METER_NAME" "$METER_JSON"
[16:22:47] INFO: Starting wmbusmeters service.
[16:22:47] INFO: Starting web configuration service.
[16:22:49] INFO: CONFIG_CONF ...
[16:22:49] INFO: {"device":"rtlwmbus:868M:t1","donotprobe":"/dev/ttyAMA0","format":"json","logfile":"/dev/stdout","loglevel":"debug","logtelegrams":true,"shell":"/wmbusmeters/mosquitto_pub.sh \"wmbusmeters/$METER_NAME\" \"$METER_JSON\""}
[16:22:49] INFO: CONFIG_METERS ...
[16:22:49] INFO: []
[16:22:49] INFO: Syncing wmbusmeters configuration ...
[16:22:49] INFO: Registering meters ...
[16:22:49] INFO: Generating MQTT configuration ... 
[16:22:49] INFO: Starting Nginx...
2025/01/20 16:22:49 [notice] 93#93: using the "epoll" event method
2025/01/20 16:22:49 [notice] 93#93: nginx/1.24.0
2025/01/20 16:22:49 [notice] 93#93: OS: Linux 6.6.62-haos-raspi
2025/01/20 16:22:49 [notice] 93#93: getrlimit(RLIMIT_NOFILE): 1073741816:1073741816
2025/01/20 16:22:49 [notice] 93#93: start worker processes
2025/01/20 16:22:49 [notice] 93#93: start worker process 183
[16:22:50] INFO: Broker core-mosquitto will be used.
[16:22:50] INFO: 
MQTT Discovery ...
[16:22:51] INFO: MQTT Discovery cleanup...
[16:22:52] INFO: Running wmbusmeters ...
(config) "logtelegrams" "true"
(wmbusmeters) version: 1.18.0
(config) using device: rtlwmbus:868M:t1 
(config) number of meters: 0
(shell) exec (capture output) "/bin/sh"
(shell) arg "-c"
(shell) arg "rtl_sdr < /dev/null"
(shell) output: >>>rtl_sdr, an I/Q recorder for RTL2832 based DVB-T receivers
Usage:	 -f frequency_to_tune_to [Hz]
	[-s samplerate (default: 2048000 Hz)]
	[-d device_index or serial (default: 0)]
	[-g gain (default: 0 for auto)]
	[-p ppm_error (default: 0)]
	[-b output_block_size (default: 16 * 16384)]
	[-n number of samples to read (default: 0, infinite)]
	[-S force sync output (default: async)]
	[-D enable direct sampling (default: off)]
	filename (a '-' dumps samples to stdout)
<<<
(serial) EVENT thread interrupted
(shell) return code 1
(shell) 227 exited
(main) rtl_srd found in path
(shell) exec (capture output) "/bin/sh"
(shell) arg "-c"
(shell) arg "rtl_wmbus < /dev/null"
(shell) output: >>><<<
(serial) EVENT thread interrupted
(shell) return code 0
(shell) 228 exited
(main) rtl_wmbus found in path
(main) rtlsdr device 00000001 not currently used.
(main) found specified device (rtlwmbus:868M:t1) that matches detected device (:rtlwmbus[00000001]:0/0)
(main) opening rtlwmbus:868M:t1
Started config rtlwmbus[00000001] listening on t1 using fq 868M
(shell) exec (capture output) "/usr/bin/rtl_wmbus"
(shell) arg "-h"
(shell) output: >>>/usr/bin/rtl_wmbus: unrecognized option: h
rtl_wmbus: 1.0.1-17-g34684e6
Usage /usr/bin/rtl_wmbus:
	-o remove DC offset
	-a accelerate (use an inaccurate atan version)
	-r 0 to disable run length algorithm
	-t 0 to disable time2 algorithm
	-d 2 set decimation rate to 2 (defaults to 2 if omitted)
	-v show used algorithm in the output
	-V show version
	-s receive S1 and T1/C1 datagrams simultaneously. rtl_sdr _MUST_ be set to 868.625MHz (-f 868.625M)
	-p [T,S] to disable processing T1/C1 or S1 mode
	-f exit if incoming data stalled for 5 seconds
	-h print this help
<<<
(serial) EVENT thread interrupted
(shell) return code 1
(shell) 233 exited
(rtlwmbus) help /usr/bin/rtl_wmbus: unrecognized option: h
rtl_wmbus: 1.0.1-17-g34684e6
Usage /usr/bin/rtl_wmbus:
	-o remove DC offset
	-a accelerate (use an inaccurate atan version)
	-r 0 to disable run length algorithm
	-t 0 to disable time2 algorithm
	-d 2 set decimation rate to 2 (defaults to 2 if omitted)
	-v show used algorithm in the output
	-V show version
	-s receive S1 and T1/C1 datagrams simultaneously. rtl_sdr _MUST_ be set to 868.625MHz (-f 868.625M)
	-p [T,S] to disable processing T1/C1 or S1 mode
	-f exit if incoming data stalled for 5 seconds
	-h print this help
(rtlwmbus) using command: ERRFILE=$(mktemp -t wmbusmeters_rtlsdr.XXXXXXXXXXXX) ; echo ERRFILE=$ERRFILE ; date -Iseconds > $ERRFILE ; tail -f $ERRFILE & /usr/bin/rtl_sdr  -d 0 -f 868M -s 1.6e6 - 2>>$ERRFILE | /usr/bin/rtl_wmbus  -f
(rtlwmbus) opening 00000001
(bgshell) exec background "/bin/sh"
(bgshell) arg "-c"
(bgshell) arg "ERRFILE=$(mktemp -t wmbusmeters_rtlsdr.XXXXXXXXXXXX) ; echo ERRFILE=$ERRFILE ; date -Iseconds > $ERRFILE ; tail -f $ERRFILE & /usr/bin/rtl_sdr  -d 0 -f 868M -s 1.6e6 - 2>>$ERRFILE | /usr/bin/rtl_wmbus  -f"
(serialcmd) opened /bin/sh pid 234 fd 6 (rtlwmbus)
(serial) EVENT thread interrupted
(main) regular reset of rtlwmbus  will happen every 82800 seconds
(wmbus) no alarm (expected activity) for rtlwmbus
(serial) registered regular callback HOT_PLUG_DETECTOR(0) every 2 seconds
No meters configured. Printing id:s of all telegrams heard!
(serial) waiting for stop
(serial) received ascii "ERRFILE=/tmp/wmbusmeters_rtlsdr.XXXXXXMIdJHk<0A>"
(rtlwmbus) checkRTLWMBusFrame "ERRFILE=/tmp/wmbusmeters_rtlsdr.XXXXXXMIdJHk<0A>"
(rtlwmbus) only text
(serial) received ascii "2025-01-20T16:22:52+01:00<0A>rtl_wmbus: monitoring flow<0A>"
(rtlwmbus) checkRTLWMBusFrame "2025-01-20T16:22:52+01:00<0A>rtl_wmbus: monitoring flow<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "rtl_wmbus: monitoring flow<0A>"
(rtlwmbus) only text
(serial) received ascii "Found 1 device(s):<0A>  0:  RTLSDRBlog, Blog V4, SN: 00000001<0A><0A>Using device 0: Generic RTL2832U OEM<0A>Found Rafael Micro R828D tuner<0A>RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) checkRTLWMBusFrame "Found 1 device(s):<0A>  0:  RTLSDRBlog, Blog V4, SN: 00000001<0A><0A>Using device 0: Generic RTL2832U OEM<0A>Found Rafael Micro R828D tuner<0A>RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "  0:  RTLSDRBlog, Blog V4, SN: 00000001<0A><0A>Using device 0: Generic RTL2832U OEM<0A>Found Rafael Micro R828D tuner<0A>RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "<0A>Using device 0: Generic RTL2832U OEM<0A>Found Rafael Micro R828D tuner<0A>RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "Using device 0: Generic RTL2832U OEM<0A>Found Rafael Micro R828D tuner<0A>RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "Found Rafael Micro R828D tuner<0A>RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "RTL-SDR Blog V4 Detected<0A>Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "Sampling at 1600000 S/s.<0A>Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "Tuned to 868000000 Hz.<0A>Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "Tuner gain set to automatic.<0A>Reading samples in async mode...<0A>"
(rtlwmbus) only text
(rtlwmbus) checkRTLWMBusFrame "Reading samples in async mode...<0A>"
(rtlwmbus) only text

Co mogę zrobić aby zadziałało?

Zakomentować wszystkie inne protokoły niż 237

(swoją drogą jakąś starawą masz tę konfigurację, bo we współczesnych wersjach w komentarzach jest jawnie wymieniony flowis przy tym protokole)

lub zajrzeć i poczytać na forum zanim się napisze nowy wątek
(tylko stare flowisy miały niestandardowy protokół nowsze to wmbus)
https://forum.arturhome.pl/search?q=flowis%2B


a i jeszcze jedno, warto też odkręcić wodę oraz robić testy w godzinach pracy inkasentów (tzn. teraz to już nie inkasenci, ale nie wiem jak nazwać takie stanowisko)

@szopen
Dzięki za odpowiedź
Niestety, nie zadziałało.
Oto nowy config:

# This is an empty template for configuring rtl_433. mqtt information will be
# automatically added. Create multiple files ending in '.conf.template' to
# manage multiple rtl_433 radios, being sure to set the 'device' setting.
# https://github.com/merbanan/rtl_433/blob/master/conf/rtl_433.example.conf

output mqtt://${host}:${port},user=${username},pass=${password},retain=${retain}

output kv
output json

frequency     868M

sample_rate   250k

report_meta level
report_meta noise
report_meta stats
report_meta time:usec
report_meta protocol

signal_grabber none

protocol 237

Czy warto w takim razie zrobić update firmware rtl-sdr?

Edit:
Zmieniłem dodatek z rtl_433 na rtl_433(next) (i podobnie dla mqtt discovery).

Zaczyna działać:

rtl_433] [Auto Level] Current noise level -32.6 dB, estimated noise -32.7 dB
[rtl_433] [Auto Level] Current noise level -32.7 dB, estimated noise -32.8 dB
[rtl_433] _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 
[rtl_433] time      : 2025-01-22 13:01:11.387588             Protocol  : 237
[rtl_433] model     : Flowis       Meter id  : 340083817
[rtl_433] Type      : 1            Volume    : 109.021 m3    Device time: 2025-01-22T12:54:01                    Alarm     : 0             Backflow  : 0             Integrity : CRC
[rtl_433] Modulation: FSK          Freq1     : 867.9 MHz     Freq2     : 868.0 MHz
[rtl_433] RSSI      : -12.1 dB     SNR       : 14.8 dB       Noise     : -27.0 dB
[rtl_433] {"time" : "2025-01-22 13:01:11.387588", "protocol" : 237, "model" : "Flowis", "id" : 340083817, "type" : 1, "volume_m3" : 109.021, "device_time" : "2025-01-22T12:54:01", "alarm" : 0, "backflow" : 0, "mic" : "CRC", "mod" : "FSK", "freq1" : 867.947, "freq2" : 868.038, "rssi" : -12.144, "snr" : 14.815, "noise" : -26.959}
[rtl_433] [Auto Level] Current noise level -32.8 dB, estimated noise -32.8 dB
[rtl_433] [Auto Level] Current noise level -32.6 dB, estimated noise -32.6 dB

Witam.

Mam dokładnie identyczną nakładkę na liczniku chciałbym dostać jakieś informacje czy udało ci się w końcu odczytać ten licznik.

Jeśli tak napisz jaki sprzęt użyłeś osobiście Marzy mi się aby to działało na ESP 32 plus moduł radiowy taki jak będzie trzeba tak aby można było w prosty sposób zintegrować z HA.

Pozdrawiam

@rafal1
Wszystkie odpowiedzi masz w tym wątku wyżej… tuner Realteka na USB (+antena, nawet są linki do ofert, z tym, że na dziś w tych akurat ofertach są w absurdalnych cenach, ale przy odrobinie chęci można poszukać alternatyw na Ali albo na portalach z rzeczami używanymi jak allegro czy olx - jest szansa, że tam znajdziesz odpowiedni tuner tv za około 30zł+porto, UWAGA nie każdy tuner się nadaje, w razie wątpliwości zapytaj w tym wątku) + Dodatek rtl_433(next) - pewnie ten

plus jak znam życie Dodatek do auto-discovery, bo pewnie sobie tego sam nie skonfigurujesz, a tak jest względna wygoda

plus oczywiście jakiś broker MQTT, sugeruję standardowo Dostępne w Sklepie Mosquitto

plus jakaś elementarna wiedza jak prawidłowo skonfigurować MQTT w HA (bo w wielu starych tutorialach są nieaktualne informacje, a niektóre źródła wręcz sugerują ustawienia, które “na dzień dobry” są nieprawidłowe), najlepiej żebyś miał już jakieś niezerowe doświadczenie z MQTT (skoro określasz siebie jako początkującego, swoją drogą post wyżej to potwierdza, bo już tu był komplet informacji…).

Dziękuje za odpowiedz.