#include "hlw8012.h" #include "esphome/core/log.h" namespace esphome { namespace hlw8012 { static const char *const TAG = "hlw8012"; // valid for HLW8012 and CSE7759 static const uint32_t HLW8012_CLOCK_FREQUENCY = 3579000; void HLW8012Component::setup() { float reference_voltage = 0; ESP_LOGCONFIG(TAG, "Setting up HLW8012..."); this->sel_pin_->setup(); this->sel_pin_->digital_write(this->current_mode_); this->cf_store_.pulse_counter_setup(this->cf_pin_); this->cf1_store_.pulse_counter_setup(this->cf1_pin_); // Initialize multipliers if (this->sensor_model_ == HLW8012_SENSOR_MODEL_BL0937) { reference_voltage = 1.218f; this->power_multiplier_ = reference_voltage * reference_voltage * this->voltage_divider_ / this->current_resistor_ / 1721506.0f; this->current_multiplier_ = reference_voltage / this->current_resistor_ / 94638.0f; this->voltage_multiplier_ = reference_voltage * this->voltage_divider_ / 15397.0f; } else { // HLW8012 and CSE7759 have same reference specs reference_voltage = 2.43f; this->power_multiplier_ = reference_voltage * reference_voltage * this->voltage_divider_ / this->current_resistor_ * 64.0f / 24.0f / HLW8012_CLOCK_FREQUENCY; this->current_multiplier_ = reference_voltage / this->current_resistor_ * 512.0f / 24.0f / HLW8012_CLOCK_FREQUENCY; this->voltage_multiplier_ = reference_voltage * this->voltage_divider_ * 256.0f / HLW8012_CLOCK_FREQUENCY; } } void HLW8012Component::dump_config() { ESP_LOGCONFIG(TAG, "HLW8012:"); LOG_PIN(" SEL Pin: ", this->sel_pin_) LOG_PIN(" CF Pin: ", this->cf_pin_) LOG_PIN(" CF1 Pin: ", this->cf1_pin_) ESP_LOGCONFIG(TAG, " Change measurement mode every %u", this->change_mode_every_); ESP_LOGCONFIG(TAG, " Current resistor: %.1f mΩ", this->current_resistor_ * 1000.0f); ESP_LOGCONFIG(TAG, " Voltage Divider: %.1f", this->voltage_divider_); LOG_UPDATE_INTERVAL(this) LOG_SENSOR(" ", "Voltage", this->voltage_sensor_) LOG_SENSOR(" ", "Current", this->current_sensor_) LOG_SENSOR(" ", "Power", this->power_sensor_) LOG_SENSOR(" ", "Energy", this->energy_sensor_) } float HLW8012Component::get_setup_priority() const { return setup_priority::DATA; } void HLW8012Component::update() { // HLW8012 has 50% duty cycle pulse_counter::pulse_counter_t raw_cf = this->cf_store_.read_raw_value(); pulse_counter::pulse_counter_t raw_cf1 = this->cf1_store_.read_raw_value(); float cf_hz = raw_cf / (this->get_update_interval() / 1000.0f); if (raw_cf <= 1) { // don't count single pulse as power cf_hz = 0.0f; } float cf1_hz = raw_cf1 / (this->get_update_interval() / 1000.0f); if (raw_cf1 <= 1) { // don't count single pulse as anything cf1_hz = 0.0f; } if (this->nth_value_++ < 2) { return; } float power = cf_hz * this->power_multiplier_; if (this->change_mode_at_ != 0) { // Only read cf1 after one cycle. Apparently it's quite unstable after being changed. if (this->current_mode_) { float current = cf1_hz * this->current_multiplier_; ESP_LOGD(TAG, "Got power=%.1fW, current=%.1fA", power, current); if (this->current_sensor_ != nullptr) { this->current_sensor_->publish_state(current); } } else { float voltage = cf1_hz * this->voltage_multiplier_; ESP_LOGD(TAG, "Got power=%.1fW, voltage=%.1fV", power, voltage); if (this->voltage_sensor_ != nullptr) { this->voltage_sensor_->publish_state(voltage); } } } if (this->power_sensor_ != nullptr) { this->power_sensor_->publish_state(power); } if (this->energy_sensor_ != nullptr) { cf_total_pulses_ += raw_cf; float energy = cf_total_pulses_ * this->power_multiplier_ / 3600; this->energy_sensor_->publish_state(energy); } if (this->change_mode_at_++ == this->change_mode_every_) { this->current_mode_ = !this->current_mode_; ESP_LOGV(TAG, "Changing mode to %s mode", this->current_mode_ ? "CURRENT" : "VOLTAGE"); this->change_mode_at_ = 0; this->sel_pin_->digital_write(this->current_mode_); } } } // namespace hlw8012 } // namespace esphome