#include "htu21d.h" #include "esphome/core/log.h" #include "esphome/core/hal.h" namespace esphome { namespace htu21d { static const char *const TAG = "htu21d"; static const uint8_t HTU21D_ADDRESS = 0x40; static const uint8_t HTU21D_REGISTER_RESET = 0xFE; static const uint8_t HTU21D_REGISTER_TEMPERATURE = 0xF3; static const uint8_t HTU21D_REGISTER_HUMIDITY = 0xF5; static const uint8_t HTU21D_WRITERHT_REG_CMD = 0xE6; /**< Write RH/T User Register 1 */ static const uint8_t HTU21D_REGISTER_STATUS = 0xE7; static const uint8_t HTU21D_WRITEHEATER_REG_CMD = 0x51; /**< Write Heater Control Register */ static const uint8_t HTU21D_READHEATER_REG_CMD = 0x11; /**< Read Heater Control Register */ static const uint8_t HTU21D_REG_HTRE_BIT = 0x02; /**< Control Register Heater Bit */ void HTU21DComponent::setup() { if (!this->write_bytes(HTU21D_REGISTER_RESET, nullptr, 0)) { this->mark_failed(); return; } // Wait for software reset to complete delay(15); } void HTU21DComponent::dump_config() { ESP_LOGCONFIG(TAG, "HTU21D:"); LOG_I2C_DEVICE(this); if (this->is_failed()) { ESP_LOGE(TAG, ESP_LOG_MSG_COMM_FAIL); } LOG_UPDATE_INTERVAL(this); LOG_SENSOR(" ", "Temperature", this->temperature_); LOG_SENSOR(" ", "Humidity", this->humidity_); } void HTU21DComponent::update() { if (this->write(&HTU21D_REGISTER_TEMPERATURE, 1) != i2c::ERROR_OK) { this->status_set_warning(); return; } // According to the datasheet sht21 temperature readings can take up to 85ms this->set_timeout(85, [this]() { uint16_t raw_temperature; if (this->read(reinterpret_cast(&raw_temperature), 2) != i2c::ERROR_OK) { this->status_set_warning(); return; } raw_temperature = i2c::i2ctohs(raw_temperature); float temperature = (float(raw_temperature & 0xFFFC)) * 175.72f / 65536.0f - 46.85f; ESP_LOGD(TAG, "Got Temperature=%.1f°C", temperature); if (this->temperature_ != nullptr) this->temperature_->publish_state(temperature); if (this->write(&HTU21D_REGISTER_HUMIDITY, 1) != i2c::ERROR_OK) { this->status_set_warning(); return; } this->set_timeout(50, [this]() { uint16_t raw_humidity; if (this->read(reinterpret_cast(&raw_humidity), 2) != i2c::ERROR_OK) { this->status_set_warning(); return; } raw_humidity = i2c::i2ctohs(raw_humidity); float humidity = (float(raw_humidity & 0xFFFC)) * 125.0f / 65536.0f - 6.0f; ESP_LOGD(TAG, "Got Humidity=%.1f%%", humidity); if (this->humidity_ != nullptr) this->humidity_->publish_state(humidity); this->status_clear_warning(); // HTU21D does have a heater module but does not have heater level // Setting heater level to 1 in case the heater is ON uint8_t heater_level = 0; if (this->sensor_model_ == HTU21D_SENSOR_MODEL_HTU21D) { if (this->is_heater_enabled()) { heater_level = 1; } else { heater_level = 0; } } else { heater_level = this->get_heater_level(); } ESP_LOGD(TAG, "Heater Level=%d", heater_level); if (this->heater_ != nullptr) this->heater_->publish_state(heater_level); }); }); } bool HTU21DComponent::is_heater_enabled() { uint8_t raw_heater; if (this->read_register(HTU21D_REGISTER_STATUS, &raw_heater, 1) != i2c::ERROR_OK) { this->status_set_warning(); return false; } return (bool) ((raw_heater >> HTU21D_REG_HTRE_BIT) & 0x01); } void HTU21DComponent::set_heater(bool status) { uint8_t raw_heater; if (this->read_register(HTU21D_REGISTER_STATUS, &raw_heater, 1) != i2c::ERROR_OK) { this->status_set_warning(); return; } if (status) { raw_heater |= (1 << HTU21D_REG_HTRE_BIT); } else { raw_heater &= ~(1 << HTU21D_REG_HTRE_BIT); } if (this->write_register(HTU21D_WRITERHT_REG_CMD, &raw_heater, 1) != i2c::ERROR_OK) { this->status_set_warning(); return; } } void HTU21DComponent::set_heater_level(uint8_t level) { if (this->write_register(HTU21D_WRITEHEATER_REG_CMD, &level, 1) != i2c::ERROR_OK) { this->status_set_warning(); return; } } uint8_t HTU21DComponent::get_heater_level() { uint8_t raw_heater; if (this->read_register(HTU21D_READHEATER_REG_CMD, &raw_heater, 1) != i2c::ERROR_OK) { this->status_set_warning(); return 0; } return raw_heater & 0xF; } float HTU21DComponent::get_setup_priority() const { return setup_priority::DATA; } } // namespace htu21d } // namespace esphome