What I am using:
Other Refs:
| esphome: | |
| name: linky | |
| # https://esphome.io/components/esp8266.html | |
| esp8266: | |
| board: d1_mini | |
| # https://esphome.io/components/esp32.html | |
| #esp32: | |
| # board: lolin_s2_mini | |
| # variant: esp32s2 | |
| # WiFi Component: https://esphome.io/components/wifi.html | |
| wifi: | |
| ssid: !secret esphome_wifi_ssid | |
| password: !secret esphome_wifi_password | |
| manual_ip: | |
| static_ip: 192.168.125.84 | |
| gateway: 192.168.125.1 | |
| subnet: 255.255.255.0 | |
| dns1: 192.168.125.1 | |
| ap: | |
| ssid: Linky | |
| password: !secret esphome_wifi_password | |
| # OTA Update Component: https://esphome.io/components/ota.html | |
| ota: | |
| password: !secret esphome_ota_password | |
| # Logger Component: https://esphome.io/components/logger.html | |
| logger: | |
| baud_rate: 0 # disable logging via UART, help to avoid numerous crash with ESP_LOGD | |
| hardware_uart : UART1 | |
| level: info | |
| esp8266_store_log_strings_in_flash: false | |
| # Native API Component: https://esphome.io/components/api.html | |
| api: | |
| encryption: | |
| key: imB+N0VsxE6Ape4RhsxuyDLjCkeDIHl0GNyj1Gm3ylU= | |
| # Captive Portal: https://esphome.io/components/captive_portal.html | |
| captive_portal: | |
| # Web Server: https://esphome.io/components/web_server.html | |
| web_server: | |
| local: true | |
| port: 80 | |
| auth: | |
| username: !secret esphome_web_server_username | |
| password: !secret esphome_web_server_password | |
| # Time: https://esphome.io/components/time.html | |
| time: | |
| - platform: homeassistant | |
| timezone: "Europe/Paris" | |
| id: homeassistant_time | |
| # Status Binary Sensor: https://esphome.io/components/binary_sensor/status.html | |
| binary_sensor: | |
| - platform: status | |
| name: "Linky Status" | |
| # Restart Button: https://esphome.io/components/button/restart.html | |
| button: | |
| - platform: restart | |
| name: "Linky Restart" | |
| # https://esphome.io/custom/uart.html | |
| uart: | |
| id: uart_bus | |
| rx_pin: GPIO3 | |
| baud_rate: 9600 # 9600 == mode standard, 1200 == mode historique | |
| parity: EVEN | |
| data_bits: 7 | |
| stop_bits: 1 | |
| # https://esphome.io/components/sensor/teleinfo.html | |
| teleinfo: | |
| update_interval: 5s | |
| historical_mode: false # false == mode standard, true == mode historique | |
| # https://esphome.io/components/sensor/index.html | |
| sensor: | |
| # WiFi | |
| - platform: wifi_signal | |
| name: "Linky WiFi Signal" | |
| unit_of_measurement: dB | |
| device_class: signal_strength | |
| accuracy_decimals: 0 | |
| update_interval: 60s | |
| # Uptime | |
| - platform: uptime | |
| name: "Linky Uptime" | |
| unit_of_measurement: s | |
| device_class: duration | |
| accuracy_decimals: 0 | |
| update_interval: 60s | |
| #-------------- | |
| # MODE STANDARD | |
| #-------------- | |
| # Énergie active soutirée totale | |
| - platform: teleinfo | |
| tag_name: "EAST" | |
| name: "Linky Energie Soutirée" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # Energie active soutirée Fournisseur, index 01 | |
| - platform: teleinfo | |
| tag_name: "EASF01" | |
| name: "Linky Energie Soutirée Tempo Bleu HC" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # Energie active soutirée Fournisseur, index 02 | |
| - platform: teleinfo | |
| tag_name: "EASF02" | |
| name: "Linky Energie Soutirée Tempo Bleu HP" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # Energie active soutirée Fournisseur, index 03 | |
| - platform: teleinfo | |
| tag_name: "EASF03" | |
| name: "Linky Energie Soutirée Tempo Blanc HC" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # Energie active soutirée Fournisseur, index 04 | |
| - platform: teleinfo | |
| tag_name: "EASF04" | |
| name: "Linky Energie Soutirée Tempo Blanc HP" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # Energie active soutirée Fournisseur, index 05 | |
| - platform: teleinfo | |
| tag_name: "EASF05" | |
| name: "Linky Energie Soutirée Tempo Rouge HC" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # Energie active soutirée Fournisseur, index 06 | |
| - platform: teleinfo | |
| tag_name: "EASF06" | |
| name: "Linky Energie Soutirée Tempo Rouge HP" | |
| unit_of_measurement: kWh | |
| device_class: energy | |
| state_class: total_increasing | |
| accuracy_decimals: 3 | |
| filters: | |
| - multiply: 0.001 | |
| # # Energie active soutirée Fournisseur, index 07 | |
| # - platform: teleinfo | |
| # tag_name: "EASF07" | |
| # name: "Linky Energie Soutirée F07" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Fournisseur, index 08 | |
| # - platform: teleinfo | |
| # tag_name: "EASF08" | |
| # name: "Linky Energie Soutirée F08" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Fournisseur, index 09 | |
| # - platform: teleinfo | |
| # tag_name: "EASF09" | |
| # name: "Linky Energie Soutirée F09" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Fournisseur, index 10 | |
| # - platform: teleinfo | |
| # tag_name: "EASF10" | |
| # name: "Linky Energie Soutirée F10" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Distributeur, index 01 | |
| # - platform: teleinfo | |
| # tag_name: "EASD01" | |
| # name: "Linky Energie Soutirée D01" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Distributeur, index 02 | |
| # - platform: teleinfo | |
| # tag_name: "EASD02" | |
| # name: "Linky Energie Soutirée D02" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Distributeur, index 03 | |
| # - platform: teleinfo | |
| # tag_name: "EASD03" | |
| # name: "Linky Energie Soutirée D03" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Energie active soutirée Distributeur, index 04 | |
| # - platform: teleinfo | |
| # tag_name: "EASD04" | |
| # name: "Linky Energie Soutirée D04" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # Courant Efficace, phase 1 | |
| - platform: teleinfo | |
| tag_name: "IRMS1" | |
| name: "Linky Courant Efficace" | |
| unit_of_measurement: A | |
| device_class: current | |
| state_class: measurement | |
| # Tension Efficace, phase 1 | |
| - platform: teleinfo | |
| tag_name: "URMS1" | |
| name: "Linky Tension Efficace" | |
| unit_of_measurement: V | |
| device_class: voltage | |
| state_class: measurement | |
| # Puissance app. de référence | |
| # - platform: teleinfo | |
| # tag_name: "PREF" | |
| # name: "Linky Puissance Apparente Référence" | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # unit_of_measurement: VA | |
| # filters: | |
| # - multiply: 1000 | |
| # Puissance app. de coupure | |
| - platform: teleinfo | |
| tag_name: "PCOUP" | |
| name: "Linky Puissance Apparente Coupure" | |
| state_class: measurement | |
| device_class: apparent_power | |
| unit_of_measurement: VA | |
| filters: | |
| - multiply: 1000 | |
| # Puissance app. Instantanée Soutirée | |
| - platform: teleinfo | |
| tag_name: "SINSTS" | |
| name: "Linky Puissance Apparente Instantanée Soutirée" | |
| unit_of_measurement: VA | |
| state_class: measurement | |
| device_class: apparent_power | |
| # Puissance app. max. soutirée | |
| # - platform: teleinfo | |
| # tag_name: "SMAXSN" | |
| # name: "Linky Puissance Apparente Maximale Soutirée" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # Point n de la courbe de charge active soutirée | |
| - platform: teleinfo | |
| tag_name: "CCASN" | |
| name: "Linky Puissance Active Soutirée" | |
| unit_of_measurement: W | |
| state_class: measurement | |
| device_class: power | |
| # Point n-1 de la courbe de charge active soutirée | |
| - platform: teleinfo | |
| tag_name: "CCASN-1" | |
| name: "Linky Puissance Active Soutirée N-1" | |
| unit_of_measurement: W | |
| state_class: measurement | |
| device_class: power | |
| # Tension Moyenne, phase 1 | |
| # - platform: teleinfo | |
| # tag_name: "UMOY1" | |
| # name: "Linky Tension Moyenne" | |
| # unit_of_measurement: V | |
| # device_class: voltage | |
| # state_class: measurement | |
| #------------------------- | |
| # MODE STANDARD - TRIPHASÉ | |
| #------------------------- | |
| # # Courant Efficace, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "IRMS2" | |
| # name: "Linky Courant Efficace Phase 2" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Courant Efficace, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "IRMS3" | |
| # name: "Linky Courant Efficace Phase 3" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Tension Efficace, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "URMS2" | |
| # name: "Linky Tension Efficace Phase 2" | |
| # unit_of_measurement: V | |
| # device_class: voltage | |
| # state_class: measurement | |
| # # Tension Efficace, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "URMS3" | |
| # name: "Linky Tension Efficace Phase 3" | |
| # unit_of_measurement: V | |
| # device_class: voltage | |
| # state_class: measurement | |
| # # Puissance app. Instantanée Soutirée, phase 1 | |
| # - platform: teleinfo | |
| # tag_name: "SINSTS1" | |
| # name: "Linky Puissance Apparente Instantanée Soutirée Phase 1" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Puissance app. Instantanée Soutirée, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "SINSTS2" | |
| # name: "Linky Puissance Apparente Instantanée Soutirée Phase 2" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Puissance app. Instantanée Soutirée, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "SINSTS3" | |
| # name: "Linky Puissance Apparente Instantanée Soutirée Phase 3" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Puissance app. max. Soutirée, phase 1 | |
| # - platform: teleinfo | |
| # tag_name: "SMAXSN1" | |
| # name: "Linky Puissance Apparente Maximale Soutirée Phase 1" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Puissance app. max. Soutirée, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "SMAXSN2" | |
| # name: "Linky Puissance Apparente Maximale Soutirée Phase 2" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Puissance app. max. Soutirée, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "SMAXSN3" | |
| # name: "Linky Puissance Apparente Maximale Soutirée Phase 3" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Tension Moyenne, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "UMOY2" | |
| # name: "Linky Tension Moyenne Phase 2" | |
| # unit_of_measurement: V | |
| # device_class: voltage | |
| # state_class: measurement | |
| # # Tension Moyenne, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "UMOY3" | |
| # name: "Linky Tension Moyenne Phase 3" | |
| # unit_of_measurement: V | |
| # device_class: voltage | |
| # state_class: measurement | |
| #---------------------------- | |
| # MODE STANDARD - PRODUCTEURS | |
| #---------------------------- | |
| # # Energie active injectée totale | |
| # - platform: teleinfo | |
| # tag_name: "EAIT" | |
| # name: "Linky Energie Injectée" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Puissance app. Instantanée Injectée | |
| # - platform: teleinfo | |
| # tag_name: "SINSTI" | |
| # name: "Linky Puissance Apparente Instantanée Injectée" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Puissance app. Maximale Injectée | |
| # - platform: teleinfo | |
| # tag_name: "SMAXIN" | |
| # name: "Linky Puissance Apparente Maximale Injectée" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| # # Point n de la courbe de charge active injectée | |
| # - platform: teleinfo | |
| # tag_name: "CCAIN" | |
| # name: "Linky Puissance Active Injectée" | |
| # unit_of_measurement: W | |
| # state_class: measurement | |
| # device_class: power | |
| # # Point n-1 de la courbe de charge active injectée | |
| # - platform: teleinfo | |
| # tag_name: "CCAIN-1" | |
| # name: "Linky Puissance Active Injectée N-1" | |
| # unit_of_measurement: W | |
| # state_class: measurement | |
| # device_class: power | |
| #---------------- | |
| # MODE HISTORIQUE | |
| #---------------- | |
| # # Intensité souscrite | |
| # - platform: teleinfo | |
| # tag_name: "ISOUSC" | |
| # name: "Linky Intensité souscrite" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Index option Base | |
| # - platform: teleinfo | |
| # tag_name: "BASE" | |
| # name: "Linky Index Base" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Index option HP/HC | |
| # - platform: teleinfo | |
| # tag_name: "HCHC" | |
| # name: "Linky Index HC" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "HCHP" | |
| # name: "Linky Index HP" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Index option EJP | |
| # - platform: teleinfo | |
| # tag_name: "EJPHN" | |
| # name: "Linky Index EJP Normal" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "EJPHPM" | |
| # name: "Linky Index EJP Pointe" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Index option Tempo | |
| # - platform: teleinfo | |
| # tag_name: "BBRHCJB" | |
| # name: "Linky Index Tempo Bleu HC" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "BBRHPJB" | |
| # name: "Linky Index Tempo Bleu HP" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "BBRHCJW" | |
| # name: "Linky Index Tempo Blanc HC" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "BBRHPJW" | |
| # name: "Linky Index Tempo Blanc HP" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "BBRHCJR" | |
| # name: "Linky Index Tempo Rouge HC" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # - platform: teleinfo | |
| # tag_name: "BBRHPJR" | |
| # name: "Linky Index Tempo Rouge HP" | |
| # unit_of_measurement: kWh | |
| # device_class: energy | |
| # state_class: total_increasing | |
| # accuracy_decimals: 3 | |
| # filters: | |
| # - multiply: 0.001 | |
| # # Intensité Instantanée (monophasé) | |
| # - platform: teleinfo | |
| # tag_name: "IINST" | |
| # name: "Linky Intensité Instantanée" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Avertissement de Dépassement De Puissance Souscrite | |
| # - platform: teleinfo | |
| # tag_name: "ADPS" | |
| # name: "Linky Intensité Instantanée Dépassement" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Intensité maximale appelée (monophasé) | |
| # - platform: teleinfo | |
| # tag_name: "IMAX" | |
| # name: "Linky Intensité Maximale" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Puissance apparente | |
| # - platform: teleinfo | |
| # tag_name: "PAPP" | |
| # name: "Linky Puissance Apparente" | |
| # unit_of_measurement: VA | |
| # state_class: measurement | |
| # device_class: apparent_power | |
| #--------------------------- | |
| # MODE HISTORIQUE - TRIPHASÉ | |
| #--------------------------- | |
| # # Intensité Instantanée, phase 1 | |
| # - platform: teleinfo | |
| # tag_name: "IINST1" | |
| # name: "Linky Intensité Instantanée Phase 1" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Intensité Instantanée, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "IINST2" | |
| # name: "Linky Intensité Instantanée Phase 2" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Intensité Instantanée, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "IINST3" | |
| # name: "Linky Intensité Instantanée Phase 3" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Intensité maximale appelée, phase 1 | |
| # - platform: teleinfo | |
| # tag_name: "IMAX1" | |
| # name: "Linky Intensité Maximale Phase 1" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Intensité maximale appelée, phase 2 | |
| # - platform: teleinfo | |
| # tag_name: "IMAX2" | |
| # name: "Linky Intensité Maximale Phase 2" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Intensité maximale appelée, phase 3 | |
| # - platform: teleinfo | |
| # tag_name: "IMAX3" | |
| # name: "Linky Intensité Maximale Phase 3" | |
| # unit_of_measurement: A | |
| # device_class: current | |
| # state_class: measurement | |
| # # Puissance maximale atteinte | |
| # - platform: teleinfo | |
| # tag_name: "PMAX" | |
| # name: "Linky Puissance Maximale" | |
| # unit_of_measurement: W | |
| # state_class: measurement | |
| # device_class: power | |
| # https://esphome.io/components/text_sensor/index.html | |
| text_sensor: | |
| - platform: wifi_info | |
| ip_address: | |
| name: Linky IP Address | |
| mac_address: | |
| name: Linky Wifi Mac Address | |
| ssid: | |
| name: Linky Wifi SSID | |
| bssid: | |
| name: Linky Wifi BSSID | |
| #-------------- | |
| # MODE STANDARD | |
| #-------------- | |
| # # Adresse Secondaire du Compteur | |
| # - platform: teleinfo | |
| # tag_name: "ADSC" | |
| # name: "Linky Adresse Secondaire" | |
| # Nom du calendrier tarifaire fournisseur | |
| - platform: teleinfo | |
| tag_name: "NGTF" | |
| name: "Linky Calendrier Tarifaire" | |
| icon: mdi:information | |
| # Libellé tarif fournisseur en cours | |
| - platform: teleinfo | |
| tag_name: "LTARF" | |
| name: "Linky Tarif Actuel" | |
| icon: mdi:information | |
| # Registre de Statuts | |
| # - platform: teleinfo | |
| # tag_name: "STGE" | |
| # name: "Linky Registre de Statuts" | |
| # icon: mdi:information | |
| # # Message court | |
| # - platform: teleinfo | |
| # tag_name: "MSG1" | |
| # name: "Linky Message court" | |
| # # Message Ultra court | |
| # - platform: teleinfo | |
| # tag_name: "MSG2" | |
| # name: "Linky Message Ultra court" | |
| # # PRM | |
| # - platform: teleinfo | |
| # tag_name: "PRM" | |
| # name: "Linky PRM" | |
| # # Relais | |
| # - platform: teleinfo | |
| # tag_name: "RELAIS" | |
| # name: "Linky Relais" | |
| #---------------- | |
| # MODE HISTORIQUE | |
| #---------------- | |
| # # Adresse du compteur | |
| # - platform: teleinfo | |
| # tag_name: "ADCO" | |
| # name: "Linky Adresse" | |
| # # Option tarifaire choisie | |
| # - platform: teleinfo | |
| # tag_name: "OPTARIF" | |
| # name: "Linky Option Tarifaire" | |
| # # Préavis Début EJP (30 min) | |
| # - platform: teleinfo | |
| # tag_name: "PEJP" | |
| # name: "Linky Préavis EJP" | |
| # # Période Tarifaire en cours | |
| # - platform: teleinfo | |
| # tag_name: "PTEC" | |
| # name: "Linky Période Tarifaire" | |
| # # Couleur du lendemain | |
| # - platform: teleinfo | |
| # tag_name: "DEMAIN" | |
| # name: "Linky Couleur Demain" | |
| # # Horaire Heures Pleines Heures Creuses | |
| # - platform: teleinfo | |
| # tag_name: "HHPHC" | |
| # name: "Linky Horaire HP/HC" | |
| # # Mot d'état du compteur | |
| # - platform: teleinfo | |
| # tag_name: "MOTDETAT" | |
| # name: "Linky Mot d'état" | |
| # # Présence des potentiels | |
| # - platform: teleinfo | |
| # tag_name: "PPOT" | |
| # name: "Linky Présence Potentiels" |
Merci pour la base de travail! Est-ce que ça te semble opportun d'ajouter la partie Registre de Statuts que j'ai mis dans mon fork? ça évitera à d'autre de chercher^^
Oui n'hésitez pas à ajouter dans les commentaires ici afin que tout le monde en profite! merci!
Voilà , je n'ai gardé que le mode standard: il y en a déjà beaucoup:
esphome:
name: linky
# https://esphome.io/components/esp8266.html
esp8266:
board: d1_mini
# https://esphome.io/components/esp32.html
#esp32:
# board: lolin_s2_mini
# variant: esp32s2
# WiFi Component: https://esphome.io/components/wifi.html
wifi:
ssid: !secret esphome_wifi_ssid
password: !secret esphome_wifi_password
manual_ip:
static_ip: 192.168.125.84
gateway: 192.168.125.1
subnet: 255.255.255.0
dns1: 192.168.125.1
ap:
ssid: Linky
password: !secret esphome_wifi_password
# OTA Update Component: https://esphome.io/components/ota.html
ota:
password: !secret esphome_ota_password
# Logger Component: https://esphome.io/components/logger.html
logger:
baud_rate: 0 # disable logging via UART, help to avoid numerous crash with ESP_LOGD
hardware_uart : UART1
level: info
esp8266_store_log_strings_in_flash: false
# Native API Component: https://esphome.io/components/api.html
api:
encryption:
key: imB+N0VsxE6Ape4RhsxuyDLjCkeDIHl0GNyj1Gm3ylU=
# Captive Portal: https://esphome.io/components/captive_portal.html
captive_portal:
# Web Server: https://esphome.io/components/web_server.html
web_server:
local: true
port: 80
auth:
username: !secret esphome_web_server_username
password: !secret esphome_web_server_password
# Time: https://esphome.io/components/time.html
time:
- platform: homeassistant
timezone: "Europe/Paris"
id: homeassistant_time
# Status Binary Sensor: https://esphome.io/components/binary_sensor/status.html
binary_sensor:
- platform: status
name: "Linky Status"
#--------------
# MODE STANDARD (Registre de Statuts)
#--------------
- platform: template
name: Contact sec
id: cs
# 0 = fermé
# 1 = ouvert
- platform: template
name: État du cache-bornes distributeur
id: Ecbd
# 0 = fermé
# 1 = ouvert
- platform: template
name: Surtension sur une des phases
id: Sp
# 0 = pas de surtension
# 1 = surtension
# La mise à 1 de ce bit peut provoquer une alarme à destination du concentrateur en fonction du registre « AlarmFilter »
- platform: template
name: Dépassement de la puissance de référence
id: Dpr
# 0 = pas de dépassement
# 1 = dépassement en cours
- platform: template
name: Fonctionnement producteur/consommateur
id: Fpc
# 0 = consommateur
# 1 = producteur
- platform: template
name: Sens de l'énergie active
id: Sea
# 0 = énergie active positive
# 1 = énergie active négative
- platform: template
name: Mode dégradée de l'horloge
id: Hd
# 0 = horloge correcte
# 1 = horloge en mode dégradée
- platform: template
name: État de la sortie télé-information
id: Sti
# 0 = mode historique
# 1 = mode standard
- platform: template
name: Synchronisation CPL
id: SyC
# 0= compteur non synchronisé
# 1 = compteur synchronisé
# Restart Button: https://esphome.io/components/button/restart.html
button:
- platform: restart
name: "Linky Restart"
# https://esphome.io/custom/uart.html
uart:
id: uart_bus
rx_pin: GPIO3
baud_rate: 9600 # 9600 == mode standard, 1200 == mode historique
parity: EVEN
data_bits: 7
stop_bits: 1
# https://esphome.io/components/sensor/teleinfo.html
teleinfo:
update_interval: 5s
historical_mode: false # false == mode standard, true == mode historique
# https://esphome.io/components/sensor/index.html
sensor:
# WiFi
- platform: wifi_signal
name: "Linky WiFi Signal"
unit_of_measurement: dB
device_class: signal_strength
accuracy_decimals: 0
update_interval: 60s
# Uptime
- platform: uptime
name: "Linky Uptime"
unit_of_measurement: s
device_class: duration
accuracy_decimals: 0
update_interval: 60s
#--------------
# MODE STANDARD
#--------------
# Énergie active soutirée totale
- platform: teleinfo
tag_name: "EAST"
name: "Linky Energie Soutirée"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 01
- platform: teleinfo
tag_name: "EASF01"
name: "Linky Energie Soutirée Tempo Bleu HC"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 02
- platform: teleinfo
tag_name: "EASF02"
name: "Linky Energie Soutirée Tempo Bleu HP"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 03
- platform: teleinfo
tag_name: "EASF03"
name: "Linky Energie Soutirée Tempo Blanc HC"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 04
- platform: teleinfo
tag_name: "EASF04"
name: "Linky Energie Soutirée Tempo Blanc HP"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 05
- platform: teleinfo
tag_name: "EASF05"
name: "Linky Energie Soutirée Tempo Rouge HC"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 06
- platform: teleinfo
tag_name: "EASF06"
name: "Linky Energie Soutirée Tempo Rouge HP"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# # Energie active soutirée Fournisseur, index 07
# - platform: teleinfo
# tag_name: "EASF07"
# name: "Linky Energie Soutirée F07"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Fournisseur, index 08
# - platform: teleinfo
# tag_name: "EASF08"
# name: "Linky Energie Soutirée F08"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Fournisseur, index 09
# - platform: teleinfo
# tag_name: "EASF09"
# name: "Linky Energie Soutirée F09"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Fournisseur, index 10
# - platform: teleinfo
# tag_name: "EASF10"
# name: "Linky Energie Soutirée F10"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 01
# - platform: teleinfo
# tag_name: "EASD01"
# name: "Linky Energie Soutirée D01"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 02
# - platform: teleinfo
# tag_name: "EASD02"
# name: "Linky Energie Soutirée D02"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 03
# - platform: teleinfo
# tag_name: "EASD03"
# name: "Linky Energie Soutirée D03"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 04
# - platform: teleinfo
# tag_name: "EASD04"
# name: "Linky Energie Soutirée D04"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# Courant Efficace, phase 1
- platform: teleinfo
tag_name: "IRMS1"
name: "Linky Courant Efficace"
unit_of_measurement: A
device_class: current
state_class: measurement
# Tension Efficace, phase 1
- platform: teleinfo
tag_name: "URMS1"
name: "Linky Tension Efficace"
unit_of_measurement: V
device_class: voltage
state_class: measurement
# Puissance app. de référence
# - platform: teleinfo
# tag_name: "PREF"
# name: "Linky Puissance Apparente Référence"
# state_class: measurement
# device_class: apparent_power
# unit_of_measurement: VA
# filters:
# - multiply: 1000
# Puissance app. de coupure
- platform: teleinfo
tag_name: "PCOUP"
name: "Linky Puissance Apparente Coupure"
state_class: measurement
device_class: apparent_power
unit_of_measurement: VA
filters:
- multiply: 1000
# Puissance app. Instantanée Soutirée
- platform: teleinfo
tag_name: "SINSTS"
name: "Linky Puissance Apparente Instantanée Soutirée"
unit_of_measurement: VA
state_class: measurement
device_class: apparent_power
# Puissance app. max. soutirée
# - platform: teleinfo
# tag_name: "SMAXSN"
# name: "Linky Puissance Apparente Maximale Soutirée"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# Point n de la courbe de charge active soutirée
- platform: teleinfo
tag_name: "CCASN"
name: "Linky Puissance Active Soutirée"
unit_of_measurement: W
state_class: measurement
device_class: power
# Point n-1 de la courbe de charge active soutirée
- platform: teleinfo
tag_name: "CCASN-1"
name: "Linky Puissance Active Soutirée N-1"
unit_of_measurement: W
state_class: measurement
device_class: power
# Tension Moyenne, phase 1
# - platform: teleinfo
# tag_name: "UMOY1"
# name: "Linky Tension Moyenne"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
#-------------------------
# MODE STANDARD - TRIPHASÉ
#-------------------------
# # Courant Efficace, phase 2
# - platform: teleinfo
# tag_name: "IRMS2"
# name: "Linky Courant Efficace Phase 2"
# unit_of_measurement: A
# device_class: current
# state_class: measurement
# # Courant Efficace, phase 3
# - platform: teleinfo
# tag_name: "IRMS3"
# name: "Linky Courant Efficace Phase 3"
# unit_of_measurement: A
# device_class: current
# state_class: measurement
# # Tension Efficace, phase 2
# - platform: teleinfo
# tag_name: "URMS2"
# name: "Linky Tension Efficace Phase 2"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
# # Tension Efficace, phase 3
# - platform: teleinfo
# tag_name: "URMS3"
# name: "Linky Tension Efficace Phase 3"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
# # Puissance app. Instantanée Soutirée, phase 1
# - platform: teleinfo
# tag_name: "SINSTS1"
# name: "Linky Puissance Apparente Instantanée Soutirée Phase 1"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. Instantanée Soutirée, phase 2
# - platform: teleinfo
# tag_name: "SINSTS2"
# name: "Linky Puissance Apparente Instantanée Soutirée Phase 2"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. Instantanée Soutirée, phase 3
# - platform: teleinfo
# tag_name: "SINSTS3"
# name: "Linky Puissance Apparente Instantanée Soutirée Phase 3"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. max. Soutirée, phase 1
# - platform: teleinfo
# tag_name: "SMAXSN1"
# name: "Linky Puissance Apparente Maximale Soutirée Phase 1"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. max. Soutirée, phase 2
# - platform: teleinfo
# tag_name: "SMAXSN2"
# name: "Linky Puissance Apparente Maximale Soutirée Phase 2"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. max. Soutirée, phase 3
# - platform: teleinfo
# tag_name: "SMAXSN3"
# name: "Linky Puissance Apparente Maximale Soutirée Phase 3"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Tension Moyenne, phase 2
# - platform: teleinfo
# tag_name: "UMOY2"
# name: "Linky Tension Moyenne Phase 2"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
# # Tension Moyenne, phase 3
# - platform: teleinfo
# tag_name: "UMOY3"
# name: "Linky Tension Moyenne Phase 3"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
#----------------------------
# MODE STANDARD - PRODUCTEURS
#----------------------------
# # Energie active injectée totale
# - platform: teleinfo
# tag_name: "EAIT"
# name: "Linky Energie Injectée"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Puissance app. Instantanée Injectée
# - platform: teleinfo
# tag_name: "SINSTI"
# name: "Linky Puissance Apparente Instantanée Injectée"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. Maximale Injectée
# - platform: teleinfo
# tag_name: "SMAXIN"
# name: "Linky Puissance Apparente Maximale Injectée"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Point n de la courbe de charge active injectée
# - platform: teleinfo
# tag_name: "CCAIN"
# name: "Linky Puissance Active Injectée"
# unit_of_measurement: W
# state_class: measurement
# device_class: power
# # Point n-1 de la courbe de charge active injectée
# - platform: teleinfo
# tag_name: "CCAIN-1"
# name: "Linky Puissance Active Injectée N-1"
# unit_of_measurement: W
# state_class: measurement
# device_class: power
# https://esphome.io/components/text_sensor/index.html
text_sensor:
- platform: wifi_info
ip_address:
name: Linky IP Address
mac_address:
name: Linky Wifi Mac Address
ssid:
name: Linky Wifi SSID
bssid:
name: Linky Wifi BSSID
#--------------
# MODE STANDARD
#--------------
# # Adresse Secondaire du Compteur
# - platform: teleinfo
# tag_name: "ADSC"
# name: "Linky Adresse Secondaire"
# Nom du calendrier tarifaire fournisseur
- platform: teleinfo
tag_name: "NGTF"
name: "Linky Calendrier Tarifaire"
icon: mdi:information
# Libellé tarif fournisseur en cours
- platform: teleinfo
tag_name: "LTARF"
name: "Linky Tarif Actuel"
icon: mdi:information
# Registre de Statuts
- platform: teleinfo
tag_name: "STGE"
name: "Linky Registre de Statuts"
icon: mdi:information
internal: True
on_value:
then:
- lambda: |-
std::bitset<32> stge = std::bitset<32>(strtol(id(STGE).state.c_str(), NULL, 16));
id(cs).publish_state(stge[0] == 1);
switch( stge[3] << 4 | stge[2] << 2 | stge[1]) {
case 0x0: id(Odc).publish_state("fermé"); break;
case 0x1: id(Odc).publish_state("ouvert sur surpuissance"); break;
case 0x2: id(Odc).publish_state("ouvert sur surtension"); break;
case 0x3: id(Odc).publish_state("ouvert sur délestage"); break;
case 0x4: id(Odc).publish_state("ouvert sur ordre CPL ou Euridis"); break;
case 0x5: id(Odc).publish_state("ouvert sur une surchauffe avec une valeur du courant supérieure au courant de commutation maximal"); break;
case 0x6: id(Odc).publish_state("ouvert sur une surchauffe avec une valeur de courant inférieure au courant de commutation maximal"); break;
}
id(Ecbd).publish_state(stge[4] == 1);
id(Sp).publish_state(stge[6] == 1);
id(Dpr).publish_state(stge[7] == 1);
id(Fpc).publish_state(stge[8] == 1);
id(Sea).publish_state(stge[9] == 1);
switch( stge[13] << 8 | stge[12] << 4 | stge[11] << 2 | stge[10]) {
case 0x0: id(Teccf).publish_state("énergie ventilée sur Index 1"); break;
case 0x1: id(Teccf).publish_state("énergie ventilée sur Index 2"); break;
case 0x2: id(Teccf).publish_state("énergie ventilée sur Index 3"); break;
case 0x3: id(Teccf).publish_state("énergie ventilée sur Index 4"); break;
case 0x4: id(Teccf).publish_state("énergie ventilée sur Index 5"); break;
case 0x5: id(Teccf).publish_state("énergie ventilée sur Index 6"); break;
case 0x6: id(Teccf).publish_state("énergie ventilée sur Index 7"); break;
case 0x7: id(Teccf).publish_state("énergie ventilée sur Index 8"); break;
case 0x8: id(Teccf).publish_state("énergie ventilée sur Index 9"); break;
case 0x9: id(Teccf).publish_state("énergie ventilée sur Index 10"); break;
}
switch( stge[15] << 2 | stge[14]) {
case 0x0: id(Teccd).publish_state("énergie ventilée sur Index 1"); break;
case 0x1: id(Teccd).publish_state("énergie ventilée sur Index 2"); break;
case 0x2: id(Teccd).publish_state("énergie ventilée sur Index 3"); break;
case 0x3: id(Teccd).publish_state("énergie ventilée sur Index 4"); break;
}
id(Hd).publish_state(stge[16] == 1);
id(Sti).publish_state(stge[17] == 1);
switch( stge[20] << 2 | stge[19]) {
case 0x0: id(ScE).publish_state("désactivée"); break;
case 0x1: id(ScE).publish_state("activée sans sécurité"); break;
case 0x3: id(ScE).publish_state("activée avec sécurité"); break;
}
switch( stge[22] << 2 | stge[21]) {
case 0x0: id(SdC).publish_state("New/Unlock"); break;
case 0x1: id(SdC).publish_state("New/Lock"); break;
case 0x2: id(SdC).publish_state("Registered"); break;
}
id(SyC).publish_state(stge[23] == 1);
switch( stge[25] << 2 | stge[24]) {
case 0x0: id(CjT).publish_state("Pas d'annonce"); break;
case 0x1: id(CjT).publish_state("Bleu"); break;
case 0x2: id(CjT).publish_state("Blanc"); break;
case 0x3: id(CjT).publish_state("Rouge"); break;
}
switch( stge[27] << 2 | stge[26]) {
case 0x0: id(ClT).publish_state("Pas d'annonce"); break;
case 0x1: id(ClT).publish_state("Bleu"); break;
case 0x2: id(ClT).publish_state("Blanc"); break;
case 0x3: id(ClT).publish_state("Rouge"); break;
}
switch( stge[29] << 2 | stge[28]) {
case 0x0: id(Ppm).publish_state("pas de préavis en cours"); break;
case 0x1: id(Ppm).publish_state("préavis PM1 en cours"); break;
case 0x2: id(Ppm).publish_state("préavis PM2 en cours"); break;
case 0x3: id(Ppm).publish_state("préavis PM3 en cours"); break;
}
switch( stge[31] << 2 | stge[30]) {
case 0x0: id(Pm).publish_state("Pas de pointe mobile"); break;
case 0x1: id(Pm).publish_state("PM1 en cours"); break;
case 0x2: id(Pm).publish_state("PM2 en cours"); break;
case 0x3: id(Pm).publish_state("PM3 en cours"); break;
}
- platform: template
id: Odc
name: Organe de coupure
- platform: template
id: Teccf
name: Tarif en cours sur le contrat fourniture
- platform: template
id: Teccd
name: Tarif en cours sur le contrat distributeur
- platform: template
id: ScE
name: État de la sortie communication Enedis
- platform: template
name: Statut du CPL
id: SdC
- platform: template
name: Couleur du jour pour le contrat historique tempo
id: CjT
- platform: template
name: Couleur du lendemain pour le contrat historique tempo
id: ClT
- platform: template
name: Préavis pointes mobiles
id: Ppm
- platform: template
name: Pointe mobile (PM)
id: Pm
# Message court
- platform: teleinfo
tag_name: "MSG1"
name: "Linky Message court"
# Message Ultra court
- platform: teleinfo
tag_name: "MSG2"
name: "Linky Message Ultra court"
# PRM
- platform: teleinfo
tag_name: "PRM"
name: "Linky PRM"
# Relais
- platform: teleinfo
tag_name: "RELAIS"
name: "Linky Relais"
Voilà une version complète pour le mode standard:
esphome:
name: linky
# https://esphome.io/components/esp8266.html
esp8266:
board: d1_mini
# https://esphome.io/components/esp32.html
#esp32:
# board: lolin_s2_mini
# variant: esp32s2
# WiFi Component: https://esphome.io/components/wifi.html
wifi:
ssid: !secret esphome_wifi_ssid
password: !secret esphome_wifi_password
manual_ip:
static_ip: 192.168.125.84
gateway: 192.168.125.1
subnet: 255.255.255.0
dns1: 192.168.125.1
ap:
ssid: Linky
password: !secret esphome_wifi_password
# OTA Update Component: https://esphome.io/components/ota.html
ota:
password: !secret esphome_ota_password
# Logger Component: https://esphome.io/components/logger.html
logger:
baud_rate: 0 # disable logging via UART, help to avoid numerous crash with ESP_LOGD
hardware_uart : UART1
level: info
esp8266_store_log_strings_in_flash: false
# Native API Component: https://esphome.io/components/api.html
api:
encryption:
key: imB+N0VsxE6Ape4RhsxuyDLjCkeDIHl0GNyj1Gm3ylU=
# Captive Portal: https://esphome.io/components/captive_portal.html
captive_portal:
# Web Server: https://esphome.io/components/web_server.html
web_server:
local: true
port: 80
auth:
username: !secret esphome_web_server_username
password: !secret esphome_web_server_password
# Time: https://esphome.io/components/time.html
time:
- platform: homeassistant
timezone: "Europe/Paris"
id: homeassistant_time
# Status Binary Sensor: https://esphome.io/components/binary_sensor/status.html
binary_sensor:
- platform: status
name: "Linky Status"
#--------------
# MODE STANDARD (Registre de Statuts)
#--------------
- platform: template
name: Contact sec
id: cs
# 0 = fermé
# 1 = ouvert
- platform: template
name: État du cache-bornes distributeur
id: Ecbd
# 0 = fermé
# 1 = ouvert
- platform: template
name: Surtension sur une des phases
id: Sp
# 0 = pas de surtension
# 1 = surtension
# La mise à 1 de ce bit peut provoquer une alarme à destination du concentrateur en fonction du registre « AlarmFilter »
- platform: template
name: Dépassement de la puissance de référence
id: Dpr
# 0 = pas de dépassement
# 1 = dépassement en cours
- platform: template
name: Fonctionnement producteur/consommateur
id: Fpc
# 0 = consommateur
# 1 = producteur
- platform: template
name: Sens de l'énergie active
id: Sea
# 0 = énergie active positive
# 1 = énergie active négative
- platform: template
name: Mode dégradée de l'horloge
id: Hd
# 0 = horloge correcte
# 1 = horloge en mode dégradée
- platform: template
name: État de la sortie télé-information
id: Sti
# 0 = mode historique
# 1 = mode standard
- platform: template
name: Synchronisation CPL
id: SyC
# 0= compteur non synchronisé
# 1 = compteur synchronisé
# Restart Button: https://esphome.io/components/button/restart.html
button:
- platform: restart
name: "Linky Restart"
# https://esphome.io/custom/uart.html
uart:
id: uart_bus
rx_pin: GPIO3
baud_rate: 9600 # 9600 == mode standard, 1200 == mode historique
parity: EVEN
data_bits: 7
stop_bits: 1
# https://esphome.io/components/sensor/teleinfo.html
teleinfo:
update_interval: 5s
historical_mode: false # false == mode standard, true == mode historique
# https://esphome.io/components/sensor/index.html
sensor:
# WiFi
- platform: wifi_signal
name: "Linky WiFi Signal"
unit_of_measurement: dB
device_class: signal_strength
accuracy_decimals: 0
update_interval: 60s
# Uptime
- platform: uptime
name: "Linky Uptime"
unit_of_measurement: s
device_class: duration
accuracy_decimals: 0
update_interval: 60s
#--------------
# MODE STANDARD
#--------------
# Énergie active soutirée totale
- platform: teleinfo
tag_name: "EAST"
name: "Linky Energie Soutirée"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 01
- platform: teleinfo
tag_name: "EASF01"
name: "Linky Energie Soutirée Tempo Bleu HC"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 02
- platform: teleinfo
tag_name: "EASF02"
name: "Linky Energie Soutirée Tempo Bleu HP"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 03
- platform: teleinfo
tag_name: "EASF03"
name: "Linky Energie Soutirée Tempo Blanc HC"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 04
- platform: teleinfo
tag_name: "EASF04"
name: "Linky Energie Soutirée Tempo Blanc HP"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 05
- platform: teleinfo
tag_name: "EASF05"
name: "Linky Energie Soutirée Tempo Rouge HC"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# Energie active soutirée Fournisseur, index 06
- platform: teleinfo
tag_name: "EASF06"
name: "Linky Energie Soutirée Tempo Rouge HP"
unit_of_measurement: kWh
device_class: energy
state_class: total_increasing
accuracy_decimals: 3
filters:
- multiply: 0.001
# # Energie active soutirée Fournisseur, index 07
# - platform: teleinfo
# tag_name: "EASF07"
# name: "Linky Energie Soutirée F07"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Fournisseur, index 08
# - platform: teleinfo
# tag_name: "EASF08"
# name: "Linky Energie Soutirée F08"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Fournisseur, index 09
# - platform: teleinfo
# tag_name: "EASF09"
# name: "Linky Energie Soutirée F09"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Fournisseur, index 10
# - platform: teleinfo
# tag_name: "EASF10"
# name: "Linky Energie Soutirée F10"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 01
# - platform: teleinfo
# tag_name: "EASD01"
# name: "Linky Energie Soutirée D01"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 02
# - platform: teleinfo
# tag_name: "EASD02"
# name: "Linky Energie Soutirée D02"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 03
# - platform: teleinfo
# tag_name: "EASD03"
# name: "Linky Energie Soutirée D03"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Energie active soutirée Distributeur, index 04
# - platform: teleinfo
# tag_name: "EASD04"
# name: "Linky Energie Soutirée D04"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# Courant Efficace, phase 1
- platform: teleinfo
tag_name: "IRMS1"
name: "Linky Courant Efficace"
unit_of_measurement: A
device_class: current
state_class: measurement
# Tension Efficace, phase 1
- platform: teleinfo
tag_name: "URMS1"
name: "Linky Tension Efficace"
unit_of_measurement: V
device_class: voltage
state_class: measurement
# Puissance app. de référence
# - platform: teleinfo
# tag_name: "PREF"
# name: "Linky Puissance Apparente Référence"
# state_class: measurement
# device_class: apparent_power
# unit_of_measurement: VA
# filters:
# - multiply: 1000
# Puissance app. de coupure
- platform: teleinfo
tag_name: "PCOUP"
name: "Linky Puissance Apparente Coupure"
state_class: measurement
device_class: apparent_power
unit_of_measurement: VA
filters:
- multiply: 1000
# Puissance app. Instantanée Soutirée
- platform: teleinfo
tag_name: "SINSTS"
name: "Linky Puissance Apparente Instantanée Soutirée"
unit_of_measurement: VA
state_class: measurement
device_class: apparent_power
# Puissance app. max. soutirée
# - platform: teleinfo
# tag_name: "SMAXSN"
# name: "Linky Puissance Apparente Maximale Soutirée"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# Point n de la courbe de charge active soutirée
- platform: teleinfo
tag_name: "CCASN"
name: "Linky Puissance Active Soutirée"
unit_of_measurement: W
state_class: measurement
device_class: power
# Point n-1 de la courbe de charge active soutirée
- platform: teleinfo
tag_name: "CCASN-1"
name: "Linky Puissance Active Soutirée N-1"
unit_of_measurement: W
state_class: measurement
device_class: power
# Tension Moyenne, phase 1
# - platform: teleinfo
# tag_name: "UMOY1"
# name: "Linky Tension Moyenne"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
#-------------------------
# MODE STANDARD - TRIPHASÉ
#-------------------------
# # Courant Efficace, phase 2
# - platform: teleinfo
# tag_name: "IRMS2"
# name: "Linky Courant Efficace Phase 2"
# unit_of_measurement: A
# device_class: current
# state_class: measurement
# # Courant Efficace, phase 3
# - platform: teleinfo
# tag_name: "IRMS3"
# name: "Linky Courant Efficace Phase 3"
# unit_of_measurement: A
# device_class: current
# state_class: measurement
# # Tension Efficace, phase 2
# - platform: teleinfo
# tag_name: "URMS2"
# name: "Linky Tension Efficace Phase 2"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
# # Tension Efficace, phase 3
# - platform: teleinfo
# tag_name: "URMS3"
# name: "Linky Tension Efficace Phase 3"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
# # Puissance app. Instantanée Soutirée, phase 1
# - platform: teleinfo
# tag_name: "SINSTS1"
# name: "Linky Puissance Apparente Instantanée Soutirée Phase 1"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. Instantanée Soutirée, phase 2
# - platform: teleinfo
# tag_name: "SINSTS2"
# name: "Linky Puissance Apparente Instantanée Soutirée Phase 2"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. Instantanée Soutirée, phase 3
# - platform: teleinfo
# tag_name: "SINSTS3"
# name: "Linky Puissance Apparente Instantanée Soutirée Phase 3"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. max. Soutirée, phase 1
# - platform: teleinfo
# tag_name: "SMAXSN1"
# name: "Linky Puissance Apparente Maximale Soutirée Phase 1"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. max. Soutirée, phase 2
# - platform: teleinfo
# tag_name: "SMAXSN2"
# name: "Linky Puissance Apparente Maximale Soutirée Phase 2"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. max. Soutirée, phase 3
# - platform: teleinfo
# tag_name: "SMAXSN3"
# name: "Linky Puissance Apparente Maximale Soutirée Phase 3"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Tension Moyenne, phase 2
# - platform: teleinfo
# tag_name: "UMOY2"
# name: "Linky Tension Moyenne Phase 2"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
# # Tension Moyenne, phase 3
# - platform: teleinfo
# tag_name: "UMOY3"
# name: "Linky Tension Moyenne Phase 3"
# unit_of_measurement: V
# device_class: voltage
# state_class: measurement
#----------------------------
# MODE STANDARD - PRODUCTEURS
#----------------------------
# # Energie active injectée totale
# - platform: teleinfo
# tag_name: "EAIT"
# name: "Linky Energie Injectée"
# unit_of_measurement: kWh
# device_class: energy
# state_class: total_increasing
# accuracy_decimals: 3
# filters:
# - multiply: 0.001
# # Puissance app. Instantanée Injectée
# - platform: teleinfo
# tag_name: "SINSTI"
# name: "Linky Puissance Apparente Instantanée Injectée"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Puissance app. Maximale Injectée
# - platform: teleinfo
# tag_name: "SMAXIN"
# name: "Linky Puissance Apparente Maximale Injectée"
# unit_of_measurement: VA
# state_class: measurement
# device_class: apparent_power
# # Point n de la courbe de charge active injectée
# - platform: teleinfo
# tag_name: "CCAIN"
# name: "Linky Puissance Active Injectée"
# unit_of_measurement: W
# state_class: measurement
# device_class: power
# # Point n-1 de la courbe de charge active injectée
# - platform: teleinfo
# tag_name: "CCAIN-1"
# name: "Linky Puissance Active Injectée N-1"
# unit_of_measurement: W
# state_class: measurement
# device_class: power
# https://esphome.io/components/text_sensor/index.html
text_sensor:
- platform: wifi_info
ip_address:
name: Linky IP Address
mac_address:
name: Linky Wifi Mac Address
ssid:
name: Linky Wifi SSID
bssid:
name: Linky Wifi BSSID
#--------------
# MODE STANDARD
#--------------
# # Adresse Secondaire du Compteur
# - platform: teleinfo
# tag_name: "ADSC"
# name: "Linky Adresse Secondaire"
# Nom du calendrier tarifaire fournisseur
- platform: teleinfo
tag_name: "NGTF"
name: "Linky Calendrier Tarifaire"
icon: mdi:information
# Libellé tarif fournisseur en cours
- platform: teleinfo
tag_name: "LTARF"
name: "Linky Tarif Actuel"
icon: mdi:information
# Registre de Statuts
- platform: teleinfo
tag_name: "STGE"
name: "Linky Registre de Statuts"
icon: mdi:information
internal: True
on_value:
then:
- lambda: |-
std::bitset<32> stge = std::bitset<32>(strtol(id(STGE).state.c_str(), NULL, 16));
id(cs).publish_state(stge[0] == 1);
switch( stge[3] << 4 | stge[2] << 2 | stge[1]) {
case 0x0: id(Odc).publish_state("fermé"); break;
case 0x1: id(Odc).publish_state("ouvert sur surpuissance"); break;
case 0x2: id(Odc).publish_state("ouvert sur surtension"); break;
case 0x3: id(Odc).publish_state("ouvert sur délestage"); break;
case 0x4: id(Odc).publish_state("ouvert sur ordre CPL ou Euridis"); break;
case 0x5: id(Odc).publish_state("ouvert sur une surchauffe avec une valeur du courant supérieure au courant de commutation maximal"); break;
case 0x6: id(Odc).publish_state("ouvert sur une surchauffe avec une valeur de courant inférieure au courant de commutation maximal"); break;
}
id(Ecbd).publish_state(stge[4] == 1);
id(Sp).publish_state(stge[6] == 1);
id(Dpr).publish_state(stge[7] == 1);
id(Fpc).publish_state(stge[8] == 1);
id(Sea).publish_state(stge[9] == 1);
switch( stge[13] << 8 | stge[12] << 4 | stge[11] << 2 | stge[10]) {
case 0x0: id(Teccf).publish_state("énergie ventilée sur Index 1"); break;
case 0x1: id(Teccf).publish_state("énergie ventilée sur Index 2"); break;
case 0x2: id(Teccf).publish_state("énergie ventilée sur Index 3"); break;
case 0x3: id(Teccf).publish_state("énergie ventilée sur Index 4"); break;
case 0x4: id(Teccf).publish_state("énergie ventilée sur Index 5"); break;
case 0x5: id(Teccf).publish_state("énergie ventilée sur Index 6"); break;
case 0x6: id(Teccf).publish_state("énergie ventilée sur Index 7"); break;
case 0x7: id(Teccf).publish_state("énergie ventilée sur Index 8"); break;
case 0x8: id(Teccf).publish_state("énergie ventilée sur Index 9"); break;
case 0x9: id(Teccf).publish_state("énergie ventilée sur Index 10"); break;
}
switch( stge[15] << 2 | stge[14]) {
case 0x0: id(Teccd).publish_state("énergie ventilée sur Index 1"); break;
case 0x1: id(Teccd).publish_state("énergie ventilée sur Index 2"); break;
case 0x2: id(Teccd).publish_state("énergie ventilée sur Index 3"); break;
case 0x3: id(Teccd).publish_state("énergie ventilée sur Index 4"); break;
}
id(Hd).publish_state(stge[16] == 1);
id(Sti).publish_state(stge[17] == 1);
switch( stge[20] << 2 | stge[19]) {
case 0x0: id(ScE).publish_state("désactivée"); break;
case 0x1: id(ScE).publish_state("activée sans sécurité"); break;
case 0x3: id(ScE).publish_state("activée avec sécurité"); break;
}
switch( stge[22] << 2 | stge[21]) {
case 0x0: id(SdC).publish_state("New/Unlock"); break;
case 0x1: id(SdC).publish_state("New/Lock"); break;
case 0x2: id(SdC).publish_state("Registered"); break;
}
id(SyC).publish_state(stge[23] == 1);
switch( stge[25] << 2 | stge[24]) {
case 0x0: id(CjT).publish_state("Pas d'annonce"); break;
case 0x1: id(CjT).publish_state("Bleu"); break;
case 0x2: id(CjT).publish_state("Blanc"); break;
case 0x3: id(CjT).publish_state("Rouge"); break;
}
switch( stge[27] << 2 | stge[26]) {
case 0x0: id(ClT).publish_state("Pas d'annonce"); break;
case 0x1: id(ClT).publish_state("Bleu"); break;
case 0x2: id(ClT).publish_state("Blanc"); break;
case 0x3: id(ClT).publish_state("Rouge"); break;
}
switch( stge[29] << 2 | stge[28]) {
case 0x0: id(Ppm).publish_state("pas de préavis en cours"); break;
case 0x1: id(Ppm).publish_state("préavis PM1 en cours"); break;
case 0x2: id(Ppm).publish_state("préavis PM2 en cours"); break;
case 0x3: id(Ppm).publish_state("préavis PM3 en cours"); break;
}
switch( stge[31] << 2 | stge[30]) {
case 0x0: id(Pm).publish_state("Pas de pointe mobile"); break;
case 0x1: id(Pm).publish_state("PM1 en cours"); break;
case 0x2: id(Pm).publish_state("PM2 en cours"); break;
case 0x3: id(Pm).publish_state("PM3 en cours"); break;
}
- platform: template
id: Odc
name: Organe de coupure
- platform: template
id: Teccf
name: Tarif en cours sur le contrat fourniture
- platform: template
id: Teccd
name: Tarif en cours sur le contrat distributeur
- platform: template
id: ScE
name: État de la sortie communication Enedis
- platform: template
name: Statut du CPL
id: SdC
- platform: template
name: Couleur du jour pour le contrat historique tempo
id: CjT
- platform: template
name: Couleur du lendemain pour le contrat historique tempo
id: ClT
- platform: template
name: Préavis pointes mobiles
id: Ppm
- platform: template
name: Pointe mobile (PM)
id: Pm
# Message court
- platform: teleinfo
tag_name: "MSG1"
name: "Linky Message court"
# Message Ultra court
- platform: teleinfo
tag_name: "MSG2"
name: "Linky Message Ultra court"
# PRM
- platform: teleinfo
tag_name: "PRM"
name: "Linky PRM"
# Relais
- platform: teleinfo
tag_name: "RELAIS"
name: "Linky Relais"
```
Merci, c'est top! J'avais vraiment la flemme de faire toutes ces conditions pour les registres...
Bonjour
Merci pour vos configurations. J'ai pris celle de @pledou (https://gist.github.com/mathieucarbou/886d2a6f5c0b51bb261d6a1329beb08d?permalink_comment_id=4958030#gistcomment-4958030) mais j'ai ce message quand je veux l'installer. Ne pas faire attention à la ligne 513 car je n'ai le même fichier au debut
text_sensor.teleinfo: [source /config/esphome/esphome-web-65d418.yaml:513]
platform: teleinfo
tag_name: STGE
name: Linky Registre de Statuts
icon: mdi:information
internal: True
on_value:
- then:
-
Couldn't find ID 'STGE'. Please check you have defined an ID with that name in your configuration.
lambda: !lambda |-
std::bitset<32> stge = std::bitset<32>(strtol(id(STGE).state.c_str(), NULL, 16));
id(cs).publish_state(stge[0] == 1);
switch( stge[3] << 4 | stge[2] << 2 | stge[1]) {
case 0x0: id(Odc).publish_state("fermé"); break;
case 0x1: id(Odc).publish_state("ouvert sur surpuissance"); break;
case 0x2: id(Odc).publish_state("ouvert sur surtension"); break;
case 0x3: id(Odc).publish_state("ouvert sur délestage"); break;
case 0x4: id(Odc).publish_state("ouvert sur ordre CPL ou Euridis"); break;
case 0x5: id(Odc).publish_state("ouvert sur une surchauffe avec une valeur du courant supérieure au courant de commutation maximal"); break;
case 0x6: id(Odc).publish_state("ouvert sur une surchauffe avec une valeur de courant inférieure au courant de commutation maximal"); break;
}
id(Ecbd).publish_state(stge[4] == 1);
id(Sp).publish_state(stge[6] == 1);
id(Dpr).publish_state(stge[7] == 1);
id(Fpc).publish_state(stge[8] == 1);
id(Sea).publish_state(stge[9] == 1);
switch( stge[13] << 8 | stge[12] << 4 | stge[11] << 2 | stge[10]) {
case 0x0: id(Teccf).publish_state("énergie ventilée sur Index 1"); break;
case 0x1: id(Teccf).publish_state("énergie ventilée sur Index 2"); break;
case 0x2: id(Teccf).publish_state("énergie ventilée sur Index 3"); break;
case 0x3: id(Teccf).publish_state("énergie ventilée sur Index 4"); break;
case 0x4: id(Teccf).publish_state("énergie ventilée sur Index 5"); break;
case 0x5: id(Teccf).publish_state("énergie ventilée sur Index 6"); break;
case 0x6: id(Teccf).publish_state("énergie ventilée sur Index 7"); break;
case 0x7: id(Teccf).publish_state("énergie ventilée sur Index 8"); break;
case 0x8: id(Teccf).publish_state("énergie ventilée sur Index 9"); break;
case 0x9: id(Teccf).publish_state("énergie ventilée sur Index 10"); break;
}
switch( stge[15] << 2 | stge[14]) {
case 0x0: id(Teccd).publish_state("énergie ventilée sur Index 1"); break;
case 0x1: id(Teccd).publish_state("énergie ventilée sur Index 2"); break;
case 0x2: id(Teccd).publish_state("énergie ventilée sur Index 3"); break;
case 0x3: id(Teccd).publish_state("énergie ventilée sur Index 4"); break;
}
id(Hd).publish_state(stge[16] == 1);
id(Sti).publish_state(stge[17] == 1);
switch( stge[20] << 2 | stge[19]) {
case 0x0: id(ScE).publish_state("désactivée"); break;
case 0x1: id(ScE).publish_state("activée sans sécurité"); break;
case 0x3: id(ScE).publish_state("activée avec sécurité"); break;
}
switch( stge[22] << 2 | stge[21]) {
case 0x0: id(SdC).publish_state("New/Unlock"); break;
case 0x1: id(SdC).publish_state("New/Lock"); break;
case 0x2: id(SdC).publish_state("Registered"); break;
}
id(SyC).publish_state(stge[23] == 1);
switch( stge[25] << 2 | stge[24]) {
case 0x0: id(CjT).publish_state("Pas d'annonce"); break;
case 0x1: id(CjT).publish_state("Bleu"); break;
case 0x2: id(CjT).publish_state("Blanc"); break;
case 0x3: id(CjT).publish_state("Rouge"); break;
}
switch( stge[27] << 2 | stge[26]) {
case 0x0: id(ClT).publish_state("Pas d'annonce"); break;
case 0x1: id(ClT).publish_state("Bleu"); break;
case 0x2: id(ClT).publish_state("Blanc"); break;
case 0x3: id(ClT).publish_state("Rouge"); break;
}
switch( stge[29] << 2 | stge[28]) {
case 0x0: id(Ppm).publish_state("pas de préavis en cours"); break;
case 0x1: id(Ppm).publish_state("préavis PM1 en cours"); break;
case 0x2: id(Ppm).publish_state("préavis PM2 en cours"); break;
case 0x3: id(Ppm).publish_state("préavis PM3 en cours"); break;
}
switch( stge[31] << 2 | stge[30]) {
case 0x0: id(Pm).publish_state("Pas de pointe mobile"); break;
case 0x1: id(Pm).publish_state("PM1 en cours"); break;
case 0x2: id(Pm).publish_state("PM2 en cours"); break;
case 0x3: id(Pm).publish_state("PM3 en cours"); break;
}
disabled_by_default: False
Ne faudrait-il pas définir un ID: STGE quelque part ?
Merci
Nicolas
J'ai rajouté un id: "STGE" sous tag_name: "STGE" et l'erreur est partie. PAr contre, je ne sais pas si ça fonctionne, je n'a pas encore tiré les câbles entre mon compteur linky en limite de propriété et l'intérieur de la maison
Mmh, je confirme que ca marche pas... on tombe pas sur les bons bits. Il doit y avoir une inversion qq part
Et pour le ID not found, tu as une idée ? Ma solution de rajouter l'id est la bonne ? Ou alors j'ai un autre soucis ?
Merci
Oui, effectivement c'est un oubli de ma part... mais il ya peut être moyen de faire plus simple pour récupérer la valeur dans on_value: j'ai pas le tps de regarder la doc tt de suite
Bonjour,
Super travail très complet et assez clair pour pourvoir l'adapter à son propre abonnement! un grand merci.
J'ai une question @Pronoe j'ai aussi deux compteurs, mais comment arrives tu a charger plusieurs fichiers yaml dans un esp32? j'utilise ESPhome pour faire les updates du fichier yaml de mon ESP32.
Merci
Bonjour,
lors de la compilation du firmware par esphome, il faut appeler un seul fichier qui est linky_main_esp.yaml que j'ai mis au début de mon précédent post.
Le 2ème fichier linky_TIC_historic.yaml ou linky_TIC_standard.yaml selon le cas, doit être dans le même répertoire que le premier. Il va être appelé automatiquement car le premier fichier comporte les lignes suivantes :
packages:
linky1: !include
file: linky_TIC_historic.yaml # comment this line if the counter is in standard mode
# file: linky_TIC_standard.yaml # uncomment this line if is in standard mode
vars:
bus_id: bus1
uart_pin: GPIO16
# use default UART2
update_interval: 15s
linky2: !include
# file: linky_TIC_historic.yaml # comment this line if the counter is in standard mode
file: linky_TIC_standard.yaml # uncomment this line if is in standard mode
Par contre pour le moment, mes compteurs sont encore en mode historique et je n'ai pu tester que cette configuration.
J'ai demandé il y a plus de 2 semaines à mon fournisseur Total Energie de basculer en mode standard. Cela fait 2 fois qu'ils me répondent que leur service technique doit me rappeler mais il ne se passe toujours rien.
A noter aussi que le driver teleinfo semble avoir un peu de mal a gérer les 2 compteurs car j'ai de nombreux warning sur la console signalant des temps de réponse trop longs du driver. Mais ça ne gène apparemment pas le fonctionnement, les informations remontent bien dans Home Assistant depuis 3 semaines maintenant.
Bonjour,
plus d'info sur ma config avec 2 compteurs dans Github : https://github.com/Pronoe/DUAL_TIC_LINKY_ESPHOME_HASS
Bonjour,
Pour éviter de surcharger l'ESP il faudrait peut-être faire le traitement du registre depuis Home Assistant.
Cette approche sépare efficacement la collecte des données (gérée par ESPHome) et leur traitement/logique (géré par Home Assistant), permettant à chaque système de faire ce qu'il fait le mieux.
Exemple:
--> ESPHome
text_sensor:
- platform: teleinfo
tag_name: "STGE"
name: "Linky Registre de Statuts"
icon: mdi:information--> Home Assistant
template:
- sensor:
- name: "Organe de coupure"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit1 = stge | bitwise_and(2) %}
{% set bit2 = stge | bitwise_and(4) %}
{% set bit3 = stge | bitwise_and(8) %}
{% set combined = (bit3 > 0) * 4 + (bit2 > 0) * 2 + (bit1 > 0) %}
{% if combined == 0 %}
fermé
{% elif combined == 1 %}
ouvert sur surpuissance
{% elif combined == 2 %}
ouvert sur surtension
{% elif combined == 3 %}
ouvert sur délestage
{% elif combined == 4 %}
ouvert sur ordre CPL ou Euridis
{% elif combined == 5 %}
ouvert sur une surchauffe avec une valeur du courant supérieure au courant de commutation maximal
{% elif combined == 6 %}
ouvert sur une surchauffe avec une valeur de courant inférieure au courant de commutation maximal
{% endif %}
C'est ce que je fais aussi et conseille. Mais je le fais différemment:
ESPHome:
# Nom du calendrier tarifaire fournisseur
- platform: teleinfo
tag_name: "NGTF"
name: "Linky Calendrier Tarifaire"
icon: mdi:information
# Libellé tarif fournisseur en cours
- platform: teleinfo
tag_name: "LTARF"
name: "Linky Tarif Actuel"
icon: mdi:informationHA:
- name: Linky Calendrier Tarifaire Trimmed
unique_id: "01e37eed-3045-4eee-a786-1249567fe700"
state: "{{ states.sensor.linky_calendrier_tarifaire.state | trim }}"
- name: Linky Tarif Actuel Trimmed
unique_id: "01e37eed-3045-4eee-a786-1249567fe701"
state: "{{ states.sensor.linky_tarif_actuel.state | trim | replace(' ', ' ') }}"
- name: Linky Tarif Actuel Energy Meter
unique_id: "01e37eed-3045-4eee-a786-1249567fe702"
availability: "{{ states.sensor.linky_tarif_actuel_trimmed.state | upper in ['HP BLEU', 'HC BLEU', 'HP BLANC', 'HC BLANC', 'HP ROUGE', 'HC ROUGE'] }}"
state: |-
{% set l = states.sensor.linky_tarif_actuel_trimmed.state | upper %}
{% if l == "HP BLEU" %}EDF Tempo Bleu HP
{% elif l == "HC BLEU" %}EDF Tempo Bleu HC
{% elif l == "HP BLANC" %}EDF Tempo Blanc HP
{% elif l == "HC BLANC" %}EDF Tempo Blanc HC
{% elif l == "HP ROUGE" %}EDF Tempo Rouge HP
{% elif l == "HC ROUGE" %}EDF Tempo Rouge HC
{% else %}unavailable
{% endif %}Je n'avais rien vu permettant de faire facilement un trim sur la sortie du Linky directement à même ESPHome, sauf à passer par du code c++, donc j'ai dupliqué ces capteurs.
Également ces 3 capteurs me servent juste à renommer correctement, car auparavant j'utilisais ces noms là ailleurs (EDF Tempo Bleu HP, etc)
J'ai modifié mon commentaire précédant par une solution que j'ai testé. L'idée est de passer par un template avec l'utilisation de filtres bitwise_and pour les opérations sur les bits dans Home Assistant, il convertit la logique du code de registre de Statuts impliquant un switch basé sur une combinaison de bits. Cette logique combine plusieurs bits en un seul nombre, puis sélectionne un état basé sur ce nombre.
En effet, la logique suivante (bien que fonctionnelle) met l'ESP32 à genou et génère l'erreur Components should block for at most 20-30ms
# Registre de Statuts
- platform: teleinfo
tag_name: "STGE"
id: "STGE"
name: "Linky Registre de Statuts"
icon: mdi:information
internal: True
on_value:
then:
- lambda: |-
std::bitset<32> stge = std::bitset<32>(strtol(id(STGE).state.c_str(), NULL, 16));
...
Voici le code complet. De quoi soulager votre ESP32, en espérant ne pas avoir fait d'erreur ;)
ESPHome:
text_sensor:
# Registre de Statuts
- platform: teleinfo
tag_name: "STGE"
name: "Linky Registre de Statuts"
icon: mdi:informationVotre configuration.yaml sur Home Assistant:
template:
- sensor:
# bit 0
- name: "Linky: Contact sec"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set ouverture = stge | bitwise_and(1) %}
{{ 'Ouvert' if ouverture > 0 else 'Fermé' }}
# bits 1 (LSB) à 3 (MSB)
- name: "Linky: Organe de coupure"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit1 = stge | bitwise_and(2) %}
{% set bit2 = stge | bitwise_and(4) %}
{% set bit3 = stge | bitwise_and(8) %}
{% set combined = (bit3 > 0) * 4 + (bit2 > 0) * 2 + (bit1 > 0) %}
{% if combined == 0 %}
fermé
{% elif combined == 1 %}
ouvert sur surpuissance
{% elif combined == 2 %}
ouvert sur surtension
{% elif combined == 3 %}
ouvert sur délestage
{% elif combined == 4 %}
ouvert sur ordre CPL ou Euridis
{% elif combined == 5 %}
ouvert sur une surchauffe avec une valeur du courant supérieure au courant de commutation maximal
{% elif combined == 6 %}
ouvert sur une surchauffe avec une valeur de courant inférieure au courant de commutation maximal
{% endif %}
# bit 4
- name: "Linky: État du cache-bornes distributeur"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set is_open = stge | bitwise_and(16) %}
{{ 'Ouvert' if is_open > 0 else 'Fermé' }}
# bit 6
- name: "Linky: Surtension sur une des phases"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set surtension = stge | bitwise_and(32) %}
{{ 'Surtension' if surtension > 0 else 'Pas de surtension' }}
# bit 7
- name: "Linky: Dépassement de la puissance de référence"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set depassement = stge | bitwise_and(128) %}
{{ 'Dépassement en cours' if depassement > 0 else 'Pas de dépassement' }}
# bit 8
- name: "Linky: Fonctionnement producteur/consommateur"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set role = stge | bitwise_and(256) %}
{{ 'Producteur' if role > 0 else 'Consommateur' }}
# bit 9
- name: "Linky: Sens de l'énergie active"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set energie_active = stge | bitwise_and(512) %}
{{ 'Énergie active négative' if energie_active > 0 else 'Énergie active positive' }}
# bits 10 (LSB) à 13 (MSB)
- name: "Linky: Tarif en cours sur le contrat fourniture"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit10 = stge | bitwise_and(1024) %}
{% set bit11 = stge | bitwise_and(2048) %}
{% set bit12 = stge | bitwise_and(4096) %}
{% set bit13 = stge | bitwise_and(8192) %}
{% set combined = (bit13 // 8192) * 8 + (bit12 // 4096) * 4 + (bit11 // 2048) * 2 + (bit10 // 1024) %}
{% if combined == 0 %}
Énergie ventilée sur Index 1
{% elif combined == 1 %}
Énergie ventilée sur Index 2
{% elif combined == 2 %}
Énergie ventilée sur Index 3
{% elif combined == 3 %}
Énergie ventilée sur Index 4
{% elif combined == 4 %}
Énergie ventilée sur Index 5
{% elif combined == 5 %}
Énergie ventilée sur Index 6
{% elif combined == 6 %}
Énergie ventilée sur Index 7
{% elif combined == 7 %}
Énergie ventilée sur Index 8
{% elif combined == 8 %}
Énergie ventilée sur Index 9
{% elif combined == 9 %}
Énergie ventilée sur Index 10
{% endif %}
# bits 14 (LSB) et 15 (MSB)
- name: "Linky: Tarif en cours sur le contrat distributeur"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit14 = stge | bitwise_and(16384) %}
{% set bit15 = stge | bitwise_and(32768) %}
{% set combined = (bit15 // 32768) * 2 + (bit14 // 16384) %}
{% if combined == 0 %}
Énergie ventilée sur Index 1
{% elif combined == 1 %}
Énergie ventilée sur Index 2
{% elif combined == 2 %}
Énergie ventilée sur Index 3
{% elif combined == 3 %}
Énergie ventilée sur Index 4
{% endif %}
# bit 16
- name: "Linky: Mode dégradée de l’horloge"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set horloge_status = stge | bitwise_and(65536) %}
{{ 'Horloge en mode dégradée' if horloge_status > 0 else 'Horloge correcte' }}
# bit 17
- name: "Linky: État de la sortie télé-information"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set mode_operatoire = stge | bitwise_and(131072) %}
{{ 'Mode standard' if mode_operatoire > 0 else 'Mode historique' }}
# bits 19 (LSB) et 20 (MSB)
- name: "Linky: Fonctionnalité Sécurité Status"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit19 = stge | bitwise_and(524288) %}
{% set bit20 = stge | bitwise_and(1048576) %}
{% set combined = (bit20 // 1048576) * 2 + (bit19 // 524288) %}
{% if combined == 0 %}
désactivée
{% elif combined == 1 %}
activée sans sécurité
{% elif combined == 3 %}
activée avec sécurité
{% endif %}
# bits 21 (LSB) et 22 (MSB)
- name: "Linky: Statut du CPL"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit21 = stge | bitwise_and(2097152) %}
{% set bit22 = stge | bitwise_and(4194304) %}
{% set combined = (bit22 // 4194304) * 2 + (bit21 // 2097152) %}
{% if combined == 0 %}
New/Unlock
{% elif combined == 1 %}
New/Lock
{% elif combined == 2 %}
Registered
{% endif %}
# bit 23
- name: "Linky: Synchronisation CPL"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set sync_status = stge | bitwise_and(8388608) %}
{{ 'Compteur synchronisé' if sync_status > 0 else 'Compteur non synchronisé' }}
# bits 24 (LSB) et 25 (MSB)
- name: "Linky: Couleur du jour"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit24 = stge | bitwise_and(16777216) %}
{% set bit25 = stge | bitwise_and(33554432) %}
{% set combined = (bit25 // 33554432) * 2 + (bit24 // 16777216) %}
{% if combined == 0 %}
Pas d'annonce
{% elif combined == 1 %}
Bleu
{% elif combined == 2 %}
Blanc
{% elif combined == 3 %}
Rouge
{% endif %}
# bits 26 (LSB) et 27 (MSB)
- name: "Linky: Couleur du lendemain"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit26 = stge | bitwise_and(67108864) %}
{% set bit27 = stge | bitwise_and(134217728) %}
{% set combined = (bit27 // 134217728) * 2 + (bit26 // 67108864) %}
{% if combined == 0 %}
Pas d'annonce
{% elif combined == 1 %}
Bleu
{% elif combined == 2 %}
Blanc
{% elif combined == 3 %}
Rouge
{% endif %}
# bit 28 (LSB) à 29 (MSB)
- name: "Linky: Préavis pointes mobiles"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit28 = stge | bitwise_and(268435456) %}
{% set bit29 = stge | bitwise_and(536870912) %}
{% set combined = (bit29 // 536870912) * 2 + (bit28 // 268435456) %}
{% if combined == 0 %}
Pas de préavis en cours
{% elif combined == 1 %}
Préavis PM1 en cours
{% elif combined == 2 %}
Préavis PM2 en cours
{% elif combined == 3 %}
Préavis PM3 en cours
{% endif %}
# bit 30 (LSB) à 31 (MSB)
- name: "Linky: Pointe mobile (PM)"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit30 = stge | bitwise_and(1073741824) %}
{% set bit31 = stge | bitwise_and(2147483648) %}
{% set combined = (bit31 // 2147483648) * 2 + (bit30 // 1073741824) %}
{% if combined == 0 %}
Pas de pointe mobile
{% elif combined == 1 %}
PM1 en cours
{% elif combined == 2 %}
PM2 en cours
{% elif combined == 3 %}
PM3 en cours
{% endif %}
hartigoon merci pour l'ajout: c'est très complet!
J'utilise RTE pour la couleur du lendemain, qui est connue souvent le matin très tôt, je suis curieux de savoir à quelle heure le Linky donne la couleur du lendemain.
@hartigoon : alors je me suis permis de tester tout ]a avec de légères modifs. Je confirme que RTE connais déjà la couleur du lendemain à 9h30 mais pas le Linky ;-)
template:
# https://www.home-assistant.io/integrations/sensor/
- sensor:
- name: "Linky: Tarif Actuel Energy Meter"
unique_id: "01e37eed-3045-4eee-a786-1249567fe702"
availability: "{{states.sensor.linky_tarif_actuel.state | trim | replace(' ', ' ') | upper in ['HP BLEU', 'HC BLEU', 'HP BLANC', 'HC BLANC', 'HP ROUGE', 'HC ROUGE'] }}"
state: |-
{% set l = states.sensor.linky_tarif_actuel.state | trim | replace(' ', ' ') | upper %}
{% if l == "HP BLEU" %}EDF Tempo Bleu HP
{% elif l == "HC BLEU" %}EDF Tempo Bleu HC
{% elif l == "HP BLANC" %}EDF Tempo Blanc HP
{% elif l == "HC BLANC" %}EDF Tempo Blanc HC
{% elif l == "HP ROUGE" %}EDF Tempo Rouge HP
{% elif l == "HC ROUGE" %}EDF Tempo Rouge HC
{% else %}unavailable
{% endif %}
# bits 1 (LSB) à 3 (MSB)
- name: "Linky: Organe de coupure"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit1 = stge | bitwise_and(2) %}
{% set bit2 = stge | bitwise_and(4) %}
{% set bit3 = stge | bitwise_and(8) %}
{% set combined = (bit3 > 0) * 4 + (bit2 > 0) * 2 + (bit1 > 0) %}
{% if combined == 0 %}
Fermé
{% elif combined == 1 %}
Ouvert sur surpuissance
{% elif combined == 2 %}
Ouvert sur surtension
{% elif combined == 3 %}
Ouvert sur délestage
{% elif combined == 4 %}
Ouvert sur ordre CPL ou Euridis
{% elif combined == 5 %}
Ouvert sur une surchauffe avec une valeur du courant supérieure au courant de commutation maximal
{% elif combined == 6 %}
Ouvert sur une surchauffe avec une valeur de courant inférieure au courant de commutation maximal
{% endif %}
# bit 8
- name: "Linky: Fonctionnement producteur/consommateur"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set role = stge | bitwise_and(256) %}
{{ 'Producteur' if role > 0 else 'Consommateur' }}
# bit 9
- name: "Linky: Sens de l'énergie active"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set energie_active = stge | bitwise_and(512) %}
{{ 'Énergie active négative' if energie_active > 0 else 'Énergie active positive' }}
# bits 10 (LSB) à 13 (MSB)
- name: "Linky: Tarif en cours sur le contrat fourniture"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit10 = stge | bitwise_and(1024) %}
{% set bit11 = stge | bitwise_and(2048) %}
{% set bit12 = stge | bitwise_and(4096) %}
{% set bit13 = stge | bitwise_and(8192) %}
{% set combined = (bit13 // 8192) * 8 + (bit12 // 4096) * 4 + (bit11 // 2048) * 2 + (bit10 // 1024) %}
Index {{ combined + 1 }}
# bits 14 (LSB) et 15 (MSB)
- name: "Linky: Tarif en cours sur le contrat distributeur"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit14 = stge | bitwise_and(16384) %}
{% set bit15 = stge | bitwise_and(32768) %}
{% set combined = (bit15 // 32768) * 2 + (bit14 // 16384) %}
Index {{ combined + 1 }}
# bit 17
- name: "Linky: État de la sortie télé-information"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set mode_operatoire = stge | bitwise_and(131072) %}
{{ 'Mode standard' if mode_operatoire > 0 else 'Mode historique' }}
# bits 19 (LSB) et 20 (MSB)
- name: "Linky: Fonctionnalité Sécurité Status"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit19 = stge | bitwise_and(524288) %}
{% set bit20 = stge | bitwise_and(1048576) %}
{% set combined = (bit20 // 1048576) * 2 + (bit19 // 524288) %}
{% if combined == 0 %}
Désactivée
{% elif combined == 1 %}
Activée sans sécurité
{% elif combined == 3 %}
Activée avec sécurité
{% endif %}
# bits 21 (LSB) et 22 (MSB)
- name: "Linky: Statut du CPL"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit21 = stge | bitwise_and(2097152) %}
{% set bit22 = stge | bitwise_and(4194304) %}
{% set combined = (bit22 // 4194304) * 2 + (bit21 // 2097152) %}
{% if combined == 0 %}
New/Unlock
{% elif combined == 1 %}
New/Lock
{% elif combined == 2 %}
Registered
{% endif %}
# bits 24 (LSB) et 25 (MSB)
- name: "Linky: Couleur du jour"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit24 = stge | bitwise_and(16777216) %}
{% set bit25 = stge | bitwise_and(33554432) %}
{% set combined = (bit25 // 33554432) * 2 + (bit24 // 16777216) %}
{% if combined == 0 %}
Pas d'annonce
{% elif combined == 1 %}
Bleu
{% elif combined == 2 %}
Blanc
{% elif combined == 3 %}
Rouge
{% endif %}
# bits 26 (LSB) et 27 (MSB)
- name: "Linky: Couleur du lendemain"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit26 = stge | bitwise_and(67108864) %}
{% set bit27 = stge | bitwise_and(134217728) %}
{% set combined = (bit27 // 134217728) * 2 + (bit26 // 67108864) %}
{% if combined == 0 %}
Pas d'annonce
{% elif combined == 1 %}
Bleu
{% elif combined == 2 %}
Blanc
{% elif combined == 3 %}
Rouge
{% endif %}
# bit 28 (LSB) à 29 (MSB)
- name: "Linky: Préavis pointes mobiles"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit28 = stge | bitwise_and(268435456) %}
{% set bit29 = stge | bitwise_and(536870912) %}
{% set combined = (bit29 // 536870912) * 2 + (bit28 // 268435456) %}
{% if combined == 0 %}
Pas de préavis en cours
{% elif combined == 1 %}
Préavis PM1 en cours
{% elif combined == 2 %}
Préavis PM2 en cours
{% elif combined == 3 %}
Préavis PM3 en cours
{% endif %}
# bit 30 (LSB) à 31 (MSB)
- name: "Linky: Pointe mobile (PM)"
state: >
{% set stge = states('sensor.linky_registre_de_statuts') | int(base=16) %}
{% set bit30 = stge | bitwise_and(1073741824) %}
{% set bit31 = stge | bitwise_and(2147483648) %}
{% set combined = (bit31 // 2147483648) * 2 + (bit30 // 1073741824) %}
{% if combined == 0 %}
Pas de pointe mobile
{% elif combined == 1 %}
PM1 en cours
{% elif combined == 2 %}
PM2 en cours
{% elif combined == 3 %}
PM3 en cours
{% endif %}
- binary_sensor:
# bit 0
- name: "Linky: Contact sec"
device_class: plug
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(1) == 0 }}"
# bit 4
- name: "Linky: État du cache-bornes distributeur"
device_class: opening
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(16) == 1 }}"
# bit 6
- name: "Linky: Problème de surtension sur une des phases"
device_class: problem
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(32) == 1 }}"
# bit 7
- name: "Linky: Problème de dépassement de la puissance de référence"
device_class: problem
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(128) == 1 }}"
# bit 16
- name: "Linky: Problème de de dégradation de l'horloge interne"
device_class: problem
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(65536) == 1 }}"
# bit 23
- name: "Linky: Compteur synchronisé"
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(8388608) == 1 }}"Ça fonctionne bien, mais j'ai une grosse inconnue par rapport à Linky: Synchronisation CPL.
La spec d'Enedis est très avare en doc sur le CPL, et la seule info est:
Hors d'habitude, le bit à 1 signifie une erreur (horloge, dépassement puissance, etc)...
Chez moi, le Statut du CPL est à New/Lock.
Donc j'ai inversé la condition dans mon template:
Selon la spec:
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(8388608) == 0 }}"J'ai mis:
state: "{{ states('sensor.linky_registre_de_statuts') | int(base=16) | bitwise_and(8388608) == 1 }}"Je ne sais pas trop si c'est une erreur du document, ou bien si c'est normal d'avoir le CPL désynchronisé en permanence...
Ah, ce document répond à la question: https://www.poal.fr/appfree/img/pdf/ERDF-CPT-Linky-SPEC-FONC-CPL_Specifications_fonctionnelles_du_profil_CPL_Linky.pdf
En réalité, l'état ’compteur non synchronisé’ n'Est pas une erreur car le compteur est en processus de synchro lorsqu'il es en new / lock. Donc c'est un on / off normal et non un probléme.
Je corrige.
Le compteur Linky se synchronise généralement une fois par jour au concentrateur. Mais cela peut varier selon les usages ou les fournisseurs.
Merci pour la base de travail! Est-ce que ça te semble opportun d'ajouter la partie Registre de Statuts que j'ai mis dans mon fork? ça évitera à d'autre de chercher^^