v.0.2.9-dev.3: power limitation enabling fixed + sensor renamed

2025-12-06 19:46:57 +03:00 · 2023-01-11 18:24:58 +04:00
parent 4ead5ce5f3
commit 86d66cd67d
4 changed files with 57 additions and 44 deletions
--- a/components/aux_ac/aux_ac.h
+++ b/components/aux_ac/aux_ac.h
@@ -66,7 +66,7 @@ class Constants {
    static const uint32_t AC_STATES_REQUEST_INTERVAL;
 };
-const std::string Constants::AC_FIRMWARE_VERSION = "0.2.9-dev.2";
+const std::string Constants::AC_FIRMWARE_VERSION = "0.2.9-dev.3";
 // custom fan modes
 const std::string Constants::MUTE = "mute";
@@ -193,9 +193,9 @@ struct packet_big_info_body_t {
    // байт 2 тела (байт 10 пакета)
    // https://github.com/GrKoR/AUX_HVAC_Protocol#packet_cmd_21_b10
    uint8_t reserv20 : 2;
-    bool is_invertor_periodic : 1;  // флаг периодического пакета инверторного кондиционера
+    bool is_inverter_periodic : 1;  // флаг периодического пакета инверторного кондиционера
    uint8_t reserv23 : 2;
-    bool is_invertor : 1;  // флаг инвертора
+    bool is_inverter : 1;  // флаг инвертора
    uint8_t reserv26 : 2;
    // байт 3 тела (байт 11 пакета)
@@ -288,7 +288,7 @@ struct packet_big_info_body_t {
    // байт 16 тела (байт 24 пакета)
    // https://github.com/GrKoR/AUX_HVAC_Protocol#packet_cmd_21_b24
-    uint8_t invertor_power;  // мощность инвертора (от 0 до 100) в %
+    uint8_t inverter_power;  // мощность инвертора (от 0 до 100) в %
    // байт 17 тела (байт 25 пакета)
    // https://github.com/GrKoR/AUX_HVAC_Protocol#packet_cmd_21_b25
@@ -585,7 +585,7 @@ struct ac_command_t {
    int8_t temp_outbound;     // температура исходящая
    int8_t temp_compressor;   // температура компрессора
    ac_realFan realFanSpeed;  // текущая скорость вентилятора
-    uint8_t invertor_power;   // мощность инвертора
+    uint8_t inverter_power;   // мощность инвертора
    bool defrost;             // режим разморозки внешнего блока (накопление тепла + прогрев испарителя)
    bool inverter_power_limitation_enable;      // ограничение мощности инвертора
    uint8_t inverter_power_limitation_value;    // значение ограничения мощности инвертора
@@ -705,7 +705,7 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
    // будет работать, но будет ниже, переменная устанавливается при первом получении большого пакета;
    // если эта переменная установлена, то режим работы не инверторного кондиционера будет распознаваться
    // как "в простое" (IDLE)
-    bool _is_invertor = false;
+    bool _is_inverter = false;
    // поддерживаемые кондиционером опции
    std::set<ClimateMode> _supported_modes{};
@@ -957,9 +957,9 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
        cmd->temp_outbound = 0;
        cmd->temp_compressor = 0;
        cmd->realFanSpeed = AC_REAL_FAN_UNTOUCHED;
-        cmd->invertor_power = 0;
+        cmd->inverter_power = 0;
        cmd->defrost = false;
-        cmd->inverter_power_limitation_enable =false;
+        cmd->inverter_power_limitation_enable = false;
        cmd->inverter_power_limitation_value = AC_INVERTER_POWER_LIMITATION_VALUE_UNTOUCHED;
    };
@@ -1317,7 +1317,7 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
                        big_info_body = (packet_big_info_body_t *)(_inPacket.body);
                        // тип кондея (инвертор или старт стоп)
-                        _is_invertor = big_info_body->is_invertor;
+                        _is_inverter = big_info_body->is_inverter;
                        // температура воздуха в помещении по версии сплит-системы
                        stateFloat = big_info_body->ambient_temperature_int - 0x20 + (float)(big_info_body->ambient_temperature_frac & 0x0f) / 10.0;
@@ -1351,9 +1351,9 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
                        _current_ac_state.realFanSpeed = (ac_realFan)stateFloat;
                        // мощность инвертора
-                        stateFloat = big_info_body->invertor_power;
+                        stateFloat = big_info_body->inverter_power;
-                        stateChangedFlag = stateChangedFlag || (_current_ac_state.invertor_power != stateFloat);
+                        stateChangedFlag = stateChangedFlag || (_current_ac_state.inverter_power != stateFloat);
-                        _current_ac_state.invertor_power = stateFloat;
+                        _current_ac_state.inverter_power = stateFloat;
                        // режим разморозки
                        //bool temp = (big_info_body->needDefrost && big_info_body->defrostMode);
@@ -1667,8 +1667,12 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
        }
        // ограничение мощности инвертора
        if (cmd->inverter_power_limitation_enable) {
            pack->body[13] = (pack->body[13] & ~AC_INVERTER_POWER_LIMITATION_ENABLE_MASK) | 1;
        } else {
            pack->body[13] = (pack->body[13] & ~AC_INVERTER_POWER_LIMITATION_ENABLE_MASK) | 0;
        }
        if (cmd->inverter_power_limitation_value != AC_INVERTER_POWER_LIMITATION_VALUE_UNTOUCHED) {
            pack->body[13] = (pack->body[13] & ~AC_INVERTER_POWER_LIMITATION_ENABLE_MASK) | cmd->inverter_power_limitation_enable;
            cmd->inverter_power_limitation_value = _power_limitation_value_normalise(cmd->inverter_power_limitation_value);
            pack->body[13] = (pack->body[13] & ~AC_INVERTER_POWER_LIMITATION_VALUE_MASK) | cmd->inverter_power_limitation_value;
        }
@@ -1938,13 +1942,13 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
    esphome::sensor::Sensor *sensor_inbound_temperature_ = nullptr;
    esphome::sensor::Sensor *sensor_outbound_temperature_ = nullptr;
    esphome::sensor::Sensor *sensor_compressor_temperature_ = nullptr;
-    esphome::sensor::Sensor *sensor_invertor_power_ = nullptr;
+    esphome::sensor::Sensor *sensor_inverter_power_ = nullptr;
    esphome::sensor::Sensor *sensor_vlouver_state_ = nullptr;
    esphome::binary_sensor::BinarySensor *sensor_display_ = nullptr;
    esphome::binary_sensor::BinarySensor *sensor_defrost_ = nullptr;
    esphome::text_sensor::TextSensor *sensor_preset_reporter_ = nullptr;
-    esphome::sensor::Sensor *sensor_invertor_power_limit_value_ = nullptr;
+    esphome::sensor::Sensor *sensor_inverter_power_limit_value_ = nullptr;
-    esphome::binary_sensor::BinarySensor *sensor_invertor_power_limit_state_ = nullptr;
+    esphome::binary_sensor::BinarySensor *sensor_inverter_power_limit_state_ = nullptr;
    // загружает на выполнение последовательность команд на включение/выключение табло с температурой
    bool _displaySequence(ac_display dsp = AC_DISPLAY_ON) {
@@ -2060,10 +2064,10 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
    void set_vlouver_state_sensor(sensor::Sensor *vlouver_state_sensor) { sensor_vlouver_state_ = vlouver_state_sensor; }
    void set_defrost_state(binary_sensor::BinarySensor *defrost_state_sensor) { sensor_defrost_ = defrost_state_sensor; }
    void set_display_sensor(binary_sensor::BinarySensor *display_sensor) { sensor_display_ = display_sensor; }
-    void set_invertor_power_sensor(sensor::Sensor *invertor_power_sensor) { sensor_invertor_power_ = invertor_power_sensor; }
+    void set_inverter_power_sensor(sensor::Sensor *inverter_power_sensor) { sensor_inverter_power_ = inverter_power_sensor; }
    void set_preset_reporter_sensor(text_sensor::TextSensor *preset_reporter_sensor) { sensor_preset_reporter_ = preset_reporter_sensor; }
-    void set_invertor_power_limit_value_sensor(sensor::Sensor *invertor_power_limit_value_sensor) { sensor_invertor_power_limit_value_ = invertor_power_limit_value_sensor; }
+    void set_inverter_power_limit_value_sensor(sensor::Sensor *inverter_power_limit_value_sensor) { sensor_inverter_power_limit_value_ = inverter_power_limit_value_sensor; }
-    void set_invertor_power_limit_state_sensor(binary_sensor::BinarySensor *invertor_power_limit_state_sensor) { sensor_invertor_power_limit_state_ = invertor_power_limit_state_sensor; }
+    void set_inverter_power_limit_state_sensor(binary_sensor::BinarySensor *inverter_power_limit_state_sensor) { sensor_inverter_power_limit_state_ = inverter_power_limit_state_sensor; }
    bool get_hw_initialized() { return _hw_initialized; };
    bool get_has_connection() { return _has_connection; };
@@ -2079,10 +2083,10 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
        // экшины кондиционера (информация для пользователя, что кондиционер сейчас делает)
        // сейчас экшины рассчётные и могут не отражать реального положения дел, но других вариантов не придумалось
-        if (_is_invertor) {
+        if (_is_inverter) {
            // анализ режима для инвертора точнее потому, что использует показания мощности инвертора
            static uint32_t timerInv = 0;
-            if (_current_ac_state.invertor_power == 0) {  // инвертор выключен
+            if (_current_ac_state.inverter_power == 0) {  // инвертор выключен
                timerInv = millis();
                if (_current_ac_state.realFanSpeed == AC_REAL_FAN_OFF &&
                    _current_ac_state.power == AC_POWER_OFF) {   // внутренний кулер остановлен, кондей выключен
@@ -2127,7 +2131,7 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
                    this->action = climate::CLIMATE_ACTION_FAN;  // другие режимы - вентиляция
                }
            }
-        } else {  // if(_is_invertor)
+        } else {  // if(_is_inverter)
            // для on-off сплита рассчет экшена упрощен
            if (_current_ac_state.realFanSpeed == AC_REAL_FAN_OFF &&
                _current_ac_state.power == AC_POWER_OFF) {
@@ -2380,8 +2384,8 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
        if (sensor_compressor_temperature_ != nullptr)
            sensor_compressor_temperature_->publish_state(_current_ac_state.temp_compressor);
        // мощность инвертора
-        if (sensor_invertor_power_ != nullptr)
+        if (sensor_inverter_power_ != nullptr)
-            sensor_invertor_power_->publish_state(_current_ac_state.invertor_power);
+            sensor_inverter_power_->publish_state(_current_ac_state.inverter_power);
        // флаг режима разморозки
        if (sensor_defrost_ != nullptr)
            sensor_defrost_->publish_state(_current_ac_state.defrost);
@@ -2389,11 +2393,11 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
        if (sensor_vlouver_state_ != nullptr)
            sensor_vlouver_state_->publish_state((float)this->getCurrentVlouverFrontendState());
        // флаг включенного ограничения мощности инвертора
-        if (sensor_invertor_power_limit_state_ != nullptr)
+        if (sensor_inverter_power_limit_state_ != nullptr)
-            sensor_invertor_power_limit_state_->publish_state(_current_ac_state.inverter_power_limitation_enable);
+            sensor_inverter_power_limit_state_->publish_state(_current_ac_state.inverter_power_limitation_enable);
        // значение ограничения мощности инвертора
-        if (sensor_invertor_power_limit_value_ != nullptr)
+        if (sensor_inverter_power_limit_value_ != nullptr)
-            sensor_invertor_power_limit_value_->publish_state(_current_ac_state.inverter_power_limitation_value);
+            sensor_inverter_power_limit_value_->publish_state(_current_ac_state.inverter_power_limitation_value);
        // сенсор состояния сплита
        if (sensor_preset_reporter_ != nullptr) {
@@ -2426,19 +2430,19 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
        ESP_LOGCONFIG(TAG, "  [x] Save settings %s", TRUEFALSE(this->get_store_settings()));
 #endif
-        ESP_LOGCONFIG(TAG, "  [?] Is invertor %s", millis() > _update_period + 1000 ? YESNO(_is_invertor) : "pending...");
+        ESP_LOGCONFIG(TAG, "  [?] Is inverter %s", millis() > _update_period + 1000 ? YESNO(_is_inverter) : "pending...");
        LOG_SENSOR("  ", "Indoor Temperature", this->sensor_indoor_temperature_);
        LOG_SENSOR("  ", "Outdoor Temperature", this->sensor_outdoor_temperature_);
        LOG_SENSOR("  ", "Inbound Temperature", this->sensor_inbound_temperature_);
        LOG_SENSOR("  ", "Outbound Temperature", this->sensor_outbound_temperature_);
        LOG_SENSOR("  ", "Compressor Temperature", this->sensor_compressor_temperature_);
-        LOG_SENSOR("  ", "Inverter Power", this->sensor_invertor_power_);
+        LOG_SENSOR("  ", "Inverter Power", this->sensor_inverter_power_);
        LOG_BINARY_SENSOR("  ", "Defrost Status", this->sensor_defrost_);
        LOG_BINARY_SENSOR("  ", "Display", this->sensor_display_);
        LOG_TEXT_SENSOR("  ", "Preset Reporter", this->sensor_preset_reporter_);
-        LOG_SENSOR("  ", "Inverter Power Limit Value", this->sensor_invertor_power_limit_value_);
+        LOG_SENSOR("  ", "Inverter Power Limit Value", this->sensor_inverter_power_limit_value_);
-        LOG_BINARY_SENSOR("  ", "Inverter Power Limit State", this->sensor_invertor_power_limit_state_);
+        LOG_BINARY_SENSOR("  ", "Inverter Power Limit State", this->sensor_inverter_power_limit_state_);
        this->dump_traits_(TAG);
    }
@@ -3055,7 +3059,7 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
            return false;
        }
-        if (!this->_is_invertor) return false;  // если кондиционер не инверторный, то выходим
+        if (!this->_is_inverter) return false;  // если кондиционер не инверторный, то выходим
        // формируем команду
        ac_command_t cmd;
@@ -3077,7 +3081,10 @@ class AirCon : public esphome::Component, public esphome::climate::Climate {
            return false;
        }
-        if (!this->_is_invertor) return false;  // если кондиционер не инверторный, то выходим
+        if (!this->_is_inverter) {   // если кондиционер не инверторный, то выходим
            _debugMsg(F("powerLimitationOnSequence: unsupported for noninverter AC."), ESPHOME_LOG_LEVEL_WARN, __LINE__);
            return false;
        }
        power_limit = this->_power_limitation_value_normalise(power_limit);
--- a/components/aux_ac/climate.py
+++ b/components/aux_ac/climate.py
@@ -52,7 +52,8 @@ CONF_COMPRESSOR_TEMPERATURE = "compressor_temperature"
 ICON_COMPRESSOR_TEMPERATURE = "mdi:thermometer-lines"
 CONF_DISPLAY_STATE = "display_state"
-CONF_INVERTOR_POWER = "invertor_power"
+CONF_INVERTER_POWER = "inverter_power"
 CONF_INVERTER_POWER_DEPRICATED = "invertor_power"
 CONF_DEFROST_STATE = "defrost_state"
 ICON_DEFROST = "mdi:snowflake-melt"
@@ -170,7 +171,11 @@ CONFIG_SCHEMA = cv.All(
            cv.Optional(CONF_PERIOD, default="7s"): cv.time_period,
            cv.Optional(CONF_SHOW_ACTION, default="true"): cv.boolean,
            cv.Optional(CONF_DISPLAY_INVERTED, default="false"): cv.boolean,
-            cv.Optional(CONF_INVERTOR_POWER): sensor.sensor_schema(
+            
            cv.Optional(CONF_INVERTER_POWER_DEPRICATED): cv.invalid(
                "The name of sensor was changed in v.0.2.9 from 'invertor_power' to 'inverter_power'. Update your config please."
            ),
            cv.Optional(CONF_INVERTER_POWER): sensor.sensor_schema(
                unit_of_measurement=UNIT_PERCENT,
                icon=ICON_POWER,
                accuracy_decimals=0,
@@ -181,6 +186,7 @@ CONFIG_SCHEMA = cv.All(
                    cv.Optional(CONF_INTERNAL, default="true"): cv.boolean,
                }
            ),
            cv.Optional(CONF_INDOOR_TEMPERATURE): sensor.sensor_schema(
                unit_of_measurement=UNIT_CELSIUS,
                icon=ICON_THERMOMETER,
@@ -350,10 +356,10 @@ async def to_code(config):
        sens = await binary_sensor.new_binary_sensor(conf)
        cg.add(var.set_defrost_state(sens))
-    if CONF_INVERTOR_POWER in config:
+    if CONF_INVERTER_POWER in config:
-        conf = config[CONF_INVERTOR_POWER]
+        conf = config[CONF_INVERTER_POWER]
        sens = await sensor.new_sensor(conf)
-        cg.add(var.set_invertor_power_sensor(sens))
+        cg.add(var.set_inverter_power_sensor(sens))
    if CONF_PRESET_REPORTER in config:
        conf = config[CONF_PRESET_REPORTER]
@@ -363,12 +369,12 @@ async def to_code(config):
    if CONF_INVERTER_POWER_LIMIT_VALUE in config:
        conf = config[CONF_INVERTER_POWER_LIMIT_VALUE]
        sens = await sensor.new_sensor(conf)
-        cg.add(var.set_invertor_power_limit_value_sensor(sens))
+        cg.add(var.set_inverter_power_limit_value_sensor(sens))
    if CONF_INVERTER_POWER_LIMIT_STATE in config:
        conf = config[CONF_INVERTER_POWER_LIMIT_STATE]
        sens = await binary_sensor.new_binary_sensor(conf)
-        cg.add(var.set_invertor_power_limit_state_sensor(sens))
+        cg.add(var.set_inverter_power_limit_state_sensor(sens))
    cg.add(var.set_period(config[CONF_PERIOD].total_milliseconds))
    cg.add(var.set_show_action(config[CONF_SHOW_ACTION]))
--- a/tests/test-ext-power-limit.yaml
+++ b/tests/test-ext-power-limit.yaml
@@ -89,7 +89,7 @@ climate:
      name: $upper_devicename Defrost State
      id: ${devicename}_defrost_state
      internal: false
-    invertor_power:
+    inverter_power:
      name: $upper_devicename Invertor Power
      id: ${devicename}_invertor_power
      internal: false
--- a/tests/test-local-power-limit.yaml
+++ b/tests/test-local-power-limit.yaml
@@ -89,8 +89,8 @@ climate:
      name: $upper_devicename Defrost State
      id: ${devicename}_defrost_state
      internal: false
-    invertor_power:
+    inverter_power:
-      name: $upper_devicename Invertor Power
+      name: $upper_devicename Inverter Power
      id: ${devicename}_invertor_power
      internal: false
    preset_reporter: