Lambdatronic_S3200/kessel.yaml

text_sensor:
  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Kesselzustand"
    id: ${lower_name}_Kesselzustand
    register_type: read
    address: 4001
    raw_encode: HEXBYTES
    lambda: |-
      uint16_t value = modbus_controller::word_from_hex_str(x, 0);
      switch (value) {
        case 0: return std::string("STÖRUNG");
        case 1: return std::string("Kessel Aus");
        case 2: return std::string("Anheizen");
        case 3: return std::string("Heizen");
        case 4: return std::string("Feuererhaltung");
        case 5: return std::string("Feuer Aus");
        case 6: return std::string("Tür offen");
        case 7: return std::string("Vorbereitung");
        case 8: return std::string("Vorwärmen");
        case 9: return std::string("Zünden");
        case 10: return std::string("Abstellen Warten");
        case 11: return std::string("Abstellen Warten1");
        case 12: return std::string("Abstellen Einschub1");
        case 13: return std::string("Abstellen Warten2");
        case 14: return std::string("Abstellen Einschub2");
        case 15: return std::string("Abreinigen");
        case 16: return std::string("2h warten");
        case 17: return std::string("Saugen / Heizen");
        case 18: return std::string("Fehlzündung");
        case 19: return std::string("Betriebsbereit");
        case 20: return std::string("Rost schließen");
        case 21: return std::string("Stoker leeren");
        case 22: return std::string("Vorheizen");
        case 23: return std::string("Saugen");
        case 24: return std::string("RSE schließen");
        case 25: return std::string("RSE öffnen");
        case 26: return std::string("Rost kippen");
        case 27: return std::string("Vorwärmen-Zünden");
        case 28: return std::string("Resteinschub");
        case 29: return std::string("Stoker auffüllen");
        case 30: return std::string("Lambdasonde aufheizen");
        case 31: return std::string("Gebläsenachlauf I");
        case 32: return std::string("Gebläsenachlauf II");
        case 33: return std::string("Abgestellt");
        case 34: return std::string("Nachzünden");
        case 35: return std::string("Zünden Warten");
        case 36: return std::string("FB: RSE schließen");
        case 37: return std::string("FB: Kessel belüften");
        case 38: return std::string("FB: Zünden");
        case 39: return std::string("FB: min. Einschub");
        case 40: return std::string("RSE schließen");
        case 41: return std::string("STÖRUNG: STB/NA");
        case 42: return std::string("STÖRUNG: Kipprost");
        case 43: return std::string("STÖRUNG: FR-Überdr.");
        case 44: return std::string("STÖRUNG: Türkont.");
        case 45: return std::string("STÖRUNG: Saugzug");
        case 46: return std::string("STÖRUNG: Umfeld");
        case 47: return std::string("FEHLER: STB/NA");
        case 48: return std::string("FEHLER: Kipprost");
        case 49: return std::string("FEHLER: FR-Überdr.");
        case 50: return std::string("FEHLER: Türkont.");
        case 51: return std::string("FEHLER: Saugzug");
        case 52: return std::string("FEHLER: Umfeld");
        case 53: return std::string("FEHLER: Stoker");
        case 54: return std::string("STÖRUNG: Stoker");
        case 55: return std::string("FB: Stoker leeren");
        case 56: return std::string("Vorbelüften");
        case 57: return std::string("STÖRUNG: Hackgut");
        case 58: return std::string("FEHLER: Hackgut");
        case 59: return std::string("NB: Tür offen");
        case 60: return std::string("NB: Anheizen");
        case 61: return std::string("NB: Heizen");
        case 62: return std::string("FEHLER: STB/NA");
        case 63: return std::string("FEHLER: Allgemein");
        case 64: return std::string("NB: Feuer Aus");
        case 65: return std::string("Selbsttest aktiv");
        case 66: return std::string("Fehlerbeh. 20min");
        case 67: return std::string("FEHLER: Fallschacht");
        case 68: return std::string("STÖRUNG: Fallschacht");
        case 69: return std::string("Reinigen möglich");
        case 70: return std::string("Heizen - Reinigen");
        case 71: return std::string("SH Anheizen");
        case 72: return std::string("SH Heizen");
        case 73: return std::string("SH Heiz/Abstell");
        case 74: return std::string("STÖRUNG sicher");
        case 75: return std::string("AGR Nachlauf");
        case 76: return std::string("AGR reinigen");
        case 77: return std::string("Zündung AUS");
        case 78: return std::string("Filter reinigen");
        case 79: return std::string("Anheizassistent");
        case 80: return std::string("SH Zünden");
        case 81: return std::string("SH Störung");
        case 82: return std::string("Sensorcheck");
        default: return std::string("----");
      }
      return x;

sensor:
  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Kesseltemperatur"
    id: ${lower_name}_Kesseltemperatur
    register_type: read
    address: 0
    unit_of_measurement: "°C"
    value_type: S_WORD
    filters:
      - multiply: 0.5

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Abgastemperatur"
    id: ${lower_name}_Abgastemperatur
    register_type: read
    address: 1
    unit_of_measurement: "°C"
    value_type: S_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Saugzug - Ansteuerung"
    id: ${lower_name}_Saugzug_Ansteuerung
    register_type: read
    address: 13
    unit_of_measurement: "%"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Saugzugdrehzahl"
    id: ${lower_name}_Saugzugdrehzahl
    register_type: read
    address: 6
    unit_of_measurement: "rpm"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Sauerstoffregler"
    id: ${lower_name}_Sauerstoffregler
    register_type: read
    address: 16
    unit_of_measurement: "%"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Restsauerstoffgehalt"
    id: ${lower_name}_Restsauerstoffgehalt
    register_type: read
    address: 3
    unit_of_measurement: "%"
    accuracy_decimals: 1
    value_type: U_WORD
    filters:
      - multiply: 0.1

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Rücklauffühler"
    id: ${lower_name}_Ruecklauffuehler
    register_type: read
    address: 9
    unit_of_measurement: "°C"
    value_type: S_WORD
    filters:
      - multiply: 0.5

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Primärluft"
    id: ${lower_name}_Primaerluft
    register_type: read
    address: 11
    unit_of_measurement: "%"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Sekundärluft"
    id: ${lower_name}_Sekundaerluft
    register_type: read
    address: 12
    unit_of_measurement: "%"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Kesselstellgröße"
    id: ${lower_name}_Kesselstellgroesse
    register_type: read
    address: 14
    unit_of_measurement: "%"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Betriebsstunden"
    id: ${lower_name}_Betriebsstunden
    register_type: read
    address: 20
    unit_of_measurement: "h"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Anzahl der Brennerstarts"
    id: ${lower_name}_Anzahl_der_Brennerstarts
    register_type: read
    address: 22
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Betriebsstunden in der Feuererhaltung"
    id: ${lower_name}_Betriebsstunden_in_der_Feuererhaltung
    register_type: read
    address: 24
    unit_of_measurement: "h"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Errechnete Kesselsolltemperatur"
    id: ${lower_name}_Errechnete_Kesselsolltemperatur
    register_type: read
    address: 27
    unit_of_measurement: "°C"
    value_type: S_WORD
    filters:
      - multiply: 0.5

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Stunden seit letzter Wartung"
    id: ${lower_name}_Stunden_seit_letzter_Wartung
    register_type: read
    address: 55
    unit_of_measurement: "h"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Verbleibende Heizstunden bis zur Asche entleeren Warnung"
    id: ${lower_name}_Verbleibende_Heizstunden_bis_zur_Asche_entleeren_Warnung
    register_type: read
    address: 86
    unit_of_measurement: "h"
    value_type: U_WORD

  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Aussentemperatur"
    id: ${lower_name}_Aussentemperatur
    register_type: read
    address: 1000
    unit_of_measurement: "°C"
    value_type: S_WORD
    filters:
      - multiply: 0.5

binary_sensor:
  - platform: template
    name: "${name} Kesselzustand Heizen"
    id: ${lower_name}_Kesselzustand_Heizen
    lambda: |-
      if (id(${lower_name}_Kesselzustand).state == "Heizen") {
        return true;
      } else {
        return false;
      }

number:
  - platform: modbus_controller
    modbus_controller_id: ${modbus_controller_id}
    name: "${name} Kessel-Solltemperatur"
    id: ${lower_name}_Kessel_Solltemperatur
    address: 0
    unit_of_measurement: "°C"
    value_type: U_WORD
    multiply: 2
    min_value: 40
    max_value: 90