diff --git a/CODEOWNERS b/CODEOWNERS index 08602da7cd..45cf3ebeec 100644 --- a/CODEOWNERS +++ b/CODEOWNERS @@ -228,6 +228,7 @@ esphome/components/lilygo_t5_47/touchscreen/* @jesserockz esphome/components/lock/* @esphome/core esphome/components/logger/* @esphome/core esphome/components/ltr390/* @latonita @sjtrny +esphome/components/ltr501/* @latonita esphome/components/ltr_als_ps/* @latonita esphome/components/lvgl/* @clydebarrow esphome/components/m5stack_8angle/* @rnauber diff --git a/esphome/components/ltr501/__init__.py b/esphome/components/ltr501/__init__.py new file mode 100644 index 0000000000..dd06cfffea --- /dev/null +++ b/esphome/components/ltr501/__init__.py @@ -0,0 +1 @@ +CODEOWNERS = ["@latonita"] diff --git a/esphome/components/ltr501/ltr501.cpp b/esphome/components/ltr501/ltr501.cpp new file mode 100644 index 0000000000..4f4e26f44f --- /dev/null +++ b/esphome/components/ltr501/ltr501.cpp @@ -0,0 +1,542 @@ +#include "ltr501.h" +#include "esphome/core/application.h" +#include "esphome/core/log.h" +#include "esphome/core/helpers.h" + +using esphome::i2c::ErrorCode; + +namespace esphome { +namespace ltr501 { + +static const char *const TAG = "ltr501"; + +static const uint8_t MAX_TRIES = 5; +static const uint8_t MAX_SENSITIVITY_ADJUSTMENTS = 10; + +struct GainTimePair { + AlsGain501 gain; + IntegrationTime501 time; +}; + +bool operator==(const GainTimePair &lhs, const GainTimePair &rhs) { + return lhs.gain == rhs.gain && lhs.time == rhs.time; +} + +bool operator!=(const GainTimePair &lhs, const GainTimePair &rhs) { + return !(lhs.gain == rhs.gain && lhs.time == rhs.time); +} + +template T get_next(const T (&array)[size], const T val) { + size_t i = 0; + size_t idx = -1; + while (idx == -1 && i < size) { + if (array[i] == val) { + idx = i; + break; + } + i++; + } + if (idx == -1 || i + 1 >= size) + return val; + return array[i + 1]; +} + +template T get_prev(const T (&array)[size], const T val) { + size_t i = size - 1; + size_t idx = -1; + while (idx == -1 && i > 0) { + if (array[i] == val) { + idx = i; + break; + } + i--; + } + if (idx == -1 || i == 0) + return val; + return array[i - 1]; +} + +static uint16_t get_itime_ms(IntegrationTime501 time) { + static const uint16_t ALS_INT_TIME[4] = {100, 50, 200, 400}; + return ALS_INT_TIME[time & 0b11]; +} + +static uint16_t get_meas_time_ms(MeasurementRepeatRate rate) { + static const uint16_t ALS_MEAS_RATE[8] = {50, 100, 200, 500, 1000, 2000, 2000, 2000}; + return ALS_MEAS_RATE[rate & 0b111]; +} + +static float get_gain_coeff(AlsGain501 gain) { return gain == AlsGain501::GAIN_1 ? 1.0f : 150.0f; } + +static float get_ps_gain_coeff(PsGain501 gain) { + static const float PS_GAIN[4] = {1, 4, 8, 16}; + return PS_GAIN[gain & 0b11]; +} + +void LTRAlsPs501Component::setup() { + ESP_LOGCONFIG(TAG, "Setting up LTR-501/301/558"); + // As per datasheet we need to wait at least 100ms after power on to get ALS chip responsive + this->set_timeout(100, [this]() { this->state_ = State::DELAYED_SETUP; }); +} + +void LTRAlsPs501Component::dump_config() { + auto get_device_type = [](LtrType typ) { + switch (typ) { + case LtrType::LTR_TYPE_ALS_ONLY: + return "ALS only"; + case LtrType::LTR_TYPE_PS_ONLY: + return "PS only"; + case LtrType::LTR_TYPE_ALS_AND_PS: + return "Als + PS"; + default: + return "Unknown"; + } + }; + + LOG_I2C_DEVICE(this); + ESP_LOGCONFIG(TAG, " Device type: %s", get_device_type(this->ltr_type_)); + ESP_LOGCONFIG(TAG, " Automatic mode: %s", ONOFF(this->automatic_mode_enabled_)); + ESP_LOGCONFIG(TAG, " Gain: %.0fx", get_gain_coeff(this->gain_)); + ESP_LOGCONFIG(TAG, " Integration time: %d ms", get_itime_ms(this->integration_time_)); + ESP_LOGCONFIG(TAG, " Measurement repeat rate: %d ms", get_meas_time_ms(this->repeat_rate_)); + ESP_LOGCONFIG(TAG, " Glass attenuation factor: %f", this->glass_attenuation_factor_); + ESP_LOGCONFIG(TAG, " Proximity gain: %.0fx", get_ps_gain_coeff(this->ps_gain_)); + ESP_LOGCONFIG(TAG, " Proximity cooldown time: %d s", this->ps_cooldown_time_s_); + ESP_LOGCONFIG(TAG, " Proximity high threshold: %d", this->ps_threshold_high_); + ESP_LOGCONFIG(TAG, " Proximity low threshold: %d", this->ps_threshold_low_); + + LOG_UPDATE_INTERVAL(this); + + LOG_SENSOR(" ", "ALS calculated lux", this->ambient_light_sensor_); + LOG_SENSOR(" ", "CH1 Infrared counts", this->infrared_counts_sensor_); + LOG_SENSOR(" ", "CH0 Visible+IR counts", this->full_spectrum_counts_sensor_); + LOG_SENSOR(" ", "Actual gain", this->actual_gain_sensor_); + + if (this->is_failed()) { + ESP_LOGE(TAG, "Communication with I2C LTR-501/301/558 failed!"); + } +} + +void LTRAlsPs501Component::update() { + if (!this->is_als_()) { + ESP_LOGW(TAG, "Update. ALS data not available. Change configuration to ALS or ALS_PS."); + return; + } + if (this->is_ready() && this->is_als_() && this->state_ == State::IDLE) { + ESP_LOGV(TAG, "Update. Initiating new ALS data collection."); + + this->state_ = this->automatic_mode_enabled_ ? State::COLLECTING_DATA_AUTO : State::WAITING_FOR_DATA; + + this->als_readings_.ch0 = 0; + this->als_readings_.ch1 = 0; + this->als_readings_.gain = this->gain_; + this->als_readings_.integration_time = this->integration_time_; + this->als_readings_.lux = 0; + this->als_readings_.number_of_adjustments = 0; + + } else { + ESP_LOGV(TAG, "Update. Component not ready yet."); + } +} + +void LTRAlsPs501Component::loop() { + ErrorCode err = i2c::ERROR_OK; + static uint8_t tries{0}; + + switch (this->state_) { + case State::DELAYED_SETUP: + err = this->write(nullptr, 0); + if (err != i2c::ERROR_OK) { + ESP_LOGW(TAG, "i2c connection failed"); + this->mark_failed(); + } + this->configure_reset_(); + if (this->is_als_()) { + this->configure_als_(); + this->configure_integration_time_(this->integration_time_); + } + if (this->is_ps_()) { + this->configure_ps_(); + } + + this->state_ = State::IDLE; + break; + + case State::IDLE: + if (this->is_ps_()) { + this->check_and_trigger_ps_(); + } + break; + + case State::WAITING_FOR_DATA: + if (this->is_als_data_ready_(this->als_readings_) == DataAvail::DATA_OK) { + tries = 0; + ESP_LOGV(TAG, "Reading sensor data assuming gain = %.0fx, time = %d ms", + get_gain_coeff(this->als_readings_.gain), get_itime_ms(this->als_readings_.integration_time)); + this->read_sensor_data_(this->als_readings_); + this->apply_lux_calculation_(this->als_readings_); + this->state_ = State::DATA_COLLECTED; + } else if (tries >= MAX_TRIES) { + ESP_LOGW(TAG, "Can't get data after several tries. Aborting."); + tries = 0; + this->status_set_warning(); + this->state_ = State::IDLE; + return; + } else { + tries++; + } + break; + + case State::COLLECTING_DATA_AUTO: + case State::DATA_COLLECTED: + // first measurement in auto mode (COLLECTING_DATA_AUTO state) require device reconfiguration + if (this->state_ == State::COLLECTING_DATA_AUTO || this->are_adjustments_required_(this->als_readings_)) { + this->state_ = State::ADJUSTMENT_IN_PROGRESS; + ESP_LOGD(TAG, "Reconfiguring sensitivity: gain = %.0fx, time = %d ms", get_gain_coeff(this->als_readings_.gain), + get_itime_ms(this->als_readings_.integration_time)); + this->configure_integration_time_(this->als_readings_.integration_time); + this->configure_gain_(this->als_readings_.gain); + // if sensitivity adjustment needed - need to wait for first data samples after setting new parameters + this->set_timeout(2 * get_meas_time_ms(this->repeat_rate_), + [this]() { this->state_ = State::WAITING_FOR_DATA; }); + } else { + this->state_ = State::READY_TO_PUBLISH; + } + break; + + case State::ADJUSTMENT_IN_PROGRESS: + // nothing to be done, just waiting for the timeout + break; + + case State::READY_TO_PUBLISH: + this->publish_data_part_1_(this->als_readings_); + this->state_ = State::KEEP_PUBLISHING; + break; + + case State::KEEP_PUBLISHING: + this->publish_data_part_2_(this->als_readings_); + this->status_clear_warning(); + this->state_ = State::IDLE; + break; + + default: + break; + } +} + +void LTRAlsPs501Component::check_and_trigger_ps_() { + static uint32_t last_high_trigger_time{0}; + static uint32_t last_low_trigger_time{0}; + uint16_t ps_data = this->read_ps_data_(); + uint32_t now = millis(); + + if (ps_data != this->ps_readings_) { + this->ps_readings_ = ps_data; + // Higher values - object is closer to sensor + if (ps_data > this->ps_threshold_high_ && now - last_high_trigger_time >= this->ps_cooldown_time_s_ * 1000) { + last_high_trigger_time = now; + ESP_LOGD(TAG, "Proximity high threshold triggered. Value = %d, Trigger level = %d", ps_data, + this->ps_threshold_high_); + this->on_ps_high_trigger_callback_.call(); + } else if (ps_data < this->ps_threshold_low_ && now - last_low_trigger_time >= this->ps_cooldown_time_s_ * 1000) { + last_low_trigger_time = now; + ESP_LOGD(TAG, "Proximity low threshold triggered. Value = %d, Trigger level = %d", ps_data, + this->ps_threshold_low_); + this->on_ps_low_trigger_callback_.call(); + } + } +} + +bool LTRAlsPs501Component::check_part_number_() { + uint8_t manuf_id = this->reg((uint8_t) CommandRegisters::MANUFAC_ID).get(); + if (manuf_id != 0x05) { // 0x05 is Lite-On Semiconductor Corp. ID + ESP_LOGW(TAG, "Unknown manufacturer ID: 0x%02X", manuf_id); + this->mark_failed(); + return false; + } + + // Things getting not really funny here, we can't identify device type by part number ID + // ======================== ========= ===== ================= + // Device Part ID Rev Capabilities + // ======================== ========= ===== ================= + // ltr-558als 0x08 0 als + ps + // ltr-501als 0x08 0 als + ps + // ltr-301als - 0x08 0 als only + + PartIdRegister part_id{0}; + part_id.raw = this->reg((uint8_t) CommandRegisters::PART_ID).get(); + if (part_id.part_number_id != 0x08) { + ESP_LOGW(TAG, "Unknown part number ID: 0x%02X. LTR-501/301 shall have 0x08. It might not work properly.", + part_id.part_number_id); + this->status_set_warning(); + return true; + } + return true; +} + +void LTRAlsPs501Component::configure_reset_() { + ESP_LOGV(TAG, "Resetting"); + + AlsControlRegister501 als_ctrl{0}; + als_ctrl.sw_reset = true; + this->reg((uint8_t) CommandRegisters::ALS_CONTR) = als_ctrl.raw; + delay(2); + + uint8_t tries = MAX_TRIES; + do { + ESP_LOGV(TAG, "Waiting chip to reset"); + delay(2); + als_ctrl.raw = this->reg((uint8_t) CommandRegisters::ALS_CONTR).get(); + } while (als_ctrl.sw_reset && tries--); // while sw reset bit is on - keep waiting + + if (als_ctrl.sw_reset) { + ESP_LOGW(TAG, "Reset failed"); + } +} + +void LTRAlsPs501Component::configure_als_() { + AlsControlRegister501 als_ctrl{0}; + als_ctrl.sw_reset = false; + als_ctrl.als_mode_active = true; + als_ctrl.gain = this->gain_; + + ESP_LOGV(TAG, "Setting active mode and gain reg 0x%02X", als_ctrl.raw); + this->reg((uint8_t) CommandRegisters::ALS_CONTR) = als_ctrl.raw; + delay(5); + + uint8_t tries = MAX_TRIES; + do { + ESP_LOGV(TAG, "Waiting for ALS device to become active..."); + delay(2); + als_ctrl.raw = this->reg((uint8_t) CommandRegisters::ALS_CONTR).get(); + } while (!als_ctrl.als_mode_active && tries--); // while active mode is not set - keep waiting + + if (!als_ctrl.als_mode_active) { + ESP_LOGW(TAG, "Failed to activate ALS device"); + } +} + +void LTRAlsPs501Component::configure_ps_() { + PsMeasurementRateRegister ps_meas{0}; + ps_meas.ps_measurement_rate = PsMeasurementRate::PS_MEAS_RATE_50MS; + this->reg((uint8_t) CommandRegisters::PS_MEAS_RATE) = ps_meas.raw; + + PsControlRegister501 ps_ctrl{0}; + ps_ctrl.ps_mode_active = true; + ps_ctrl.ps_mode_xxx = true; + this->reg((uint8_t) CommandRegisters::PS_CONTR) = ps_ctrl.raw; +} + +uint16_t LTRAlsPs501Component::read_ps_data_() { + AlsPsStatusRegister als_status{0}; + als_status.raw = this->reg((uint8_t) CommandRegisters::ALS_PS_STATUS).get(); + if (!als_status.ps_new_data) { + return this->ps_readings_; + } + + uint8_t ps_low = this->reg((uint8_t) CommandRegisters::PS_DATA_0).get(); + PsData1Register ps_high; + ps_high.raw = this->reg((uint8_t) CommandRegisters::PS_DATA_1).get(); + + uint16_t val = encode_uint16(ps_high.ps_data_high, ps_low); + return val; +} + +void LTRAlsPs501Component::configure_gain_(AlsGain501 gain) { + AlsControlRegister501 als_ctrl{0}; + als_ctrl.als_mode_active = true; + als_ctrl.gain = gain; + this->reg((uint8_t) CommandRegisters::ALS_CONTR) = als_ctrl.raw; + delay(2); + + AlsControlRegister501 read_als_ctrl{0}; + read_als_ctrl.raw = this->reg((uint8_t) CommandRegisters::ALS_CONTR).get(); + if (read_als_ctrl.gain != gain) { + ESP_LOGW(TAG, "Failed to set gain. We will try one more time."); + this->reg((uint8_t) CommandRegisters::ALS_CONTR) = als_ctrl.raw; + delay(2); + } +} + +void LTRAlsPs501Component::configure_integration_time_(IntegrationTime501 time) { + MeasurementRateRegister501 meas{0}; + meas.measurement_repeat_rate = this->repeat_rate_; + meas.integration_time = time; + this->reg((uint8_t) CommandRegisters::MEAS_RATE) = meas.raw; + delay(2); + + MeasurementRateRegister501 read_meas{0}; + read_meas.raw = this->reg((uint8_t) CommandRegisters::MEAS_RATE).get(); + if (read_meas.integration_time != time) { + ESP_LOGW(TAG, "Failed to set integration time. We will try one more time."); + this->reg((uint8_t) CommandRegisters::MEAS_RATE) = meas.raw; + delay(2); + } +} + +DataAvail LTRAlsPs501Component::is_als_data_ready_(AlsReadings &data) { + AlsPsStatusRegister als_status{0}; + als_status.raw = this->reg((uint8_t) CommandRegisters::ALS_PS_STATUS).get(); + if (!als_status.als_new_data) + return DataAvail::NO_DATA; + ESP_LOGV(TAG, "Data ready, reported gain is %.0fx", get_gain_coeff(als_status.gain)); + if (data.gain != als_status.gain) { + ESP_LOGW(TAG, "Actual gain differs from requested (%.0f)", get_gain_coeff(data.gain)); + return DataAvail::BAD_DATA; + } + data.gain = als_status.gain; + return DataAvail::DATA_OK; +} + +void LTRAlsPs501Component::read_sensor_data_(AlsReadings &data) { + data.ch1 = 0; + data.ch0 = 0; + uint8_t ch1_0 = this->reg((uint8_t) CommandRegisters::ALS_DATA_CH1_0).get(); + uint8_t ch1_1 = this->reg((uint8_t) CommandRegisters::ALS_DATA_CH1_1).get(); + uint8_t ch0_0 = this->reg((uint8_t) CommandRegisters::ALS_DATA_CH0_0).get(); + uint8_t ch0_1 = this->reg((uint8_t) CommandRegisters::ALS_DATA_CH0_1).get(); + data.ch1 = encode_uint16(ch1_1, ch1_0); + data.ch0 = encode_uint16(ch0_1, ch0_0); + + ESP_LOGD(TAG, "Got sensor data: CH1 = %d, CH0 = %d", data.ch1, data.ch0); +} + +bool LTRAlsPs501Component::are_adjustments_required_(AlsReadings &data) { + if (!this->automatic_mode_enabled_) + return false; + + // sometimes sensors fail to change sensitivity. this prevents us from infinite loop + if (data.number_of_adjustments++ > MAX_SENSITIVITY_ADJUSTMENTS) { + ESP_LOGW(TAG, "Too many sensitivity adjustments done. Something wrong with the sensor. Stopping."); + return false; + } + + ESP_LOGV(TAG, "Adjusting sensitivity, run #%d", data.number_of_adjustments); + + // available combinations of gain and integration times: + static const GainTimePair GAIN_TIME_PAIRS[] = { + {AlsGain501::GAIN_1, INTEGRATION_TIME_50MS}, {AlsGain501::GAIN_1, INTEGRATION_TIME_100MS}, + {AlsGain501::GAIN_150, INTEGRATION_TIME_100MS}, {AlsGain501::GAIN_150, INTEGRATION_TIME_200MS}, + {AlsGain501::GAIN_150, INTEGRATION_TIME_400MS}, + }; + + GainTimePair current_pair = {data.gain, data.integration_time}; + + // Here comes funky business with this sensor. it has no internal error checking mechanism + // as in later versions (LTR-303/329/559/..) and sensor gets overwhelmed when saturated + // and readings are strange. We only check high sensitivity mode for now. + // Nothing is documented and it is a result of real-world testing. + if (data.gain == AlsGain501::GAIN_150) { + // when sensor is saturated it returns various crazy numbers + // CH1 = 1, CH0 = 0 + if (data.ch1 == 1 && data.ch0 == 0) { + ESP_LOGV(TAG, "Looks like sensor got saturated (?) CH1 = 1, CH0 = 0, Gain 150x"); + // fake saturation + data.ch0 = 0xffff; + data.ch1 = 0xffff; + } else if (data.ch1 == 65535 && data.ch0 == 0) { + ESP_LOGV(TAG, "Looks like sensor got saturated (?) CH1 = 65535, CH0 = 0, Gain 150x"); + data.ch0 = 0xffff; + } else if (data.ch1 > 1000 && data.ch0 == 0) { + ESP_LOGV(TAG, "Looks like sensor got saturated (?) CH1 = %d, CH0 = 0, Gain 150x", data.ch1); + data.ch0 = 0xffff; + } + } + + static const uint16_t LOW_INTENSITY_THRESHOLD_1 = 100; + static const uint16_t LOW_INTENSITY_THRESHOLD_200 = 2000; + static const uint16_t HIGH_INTENSITY_THRESHOLD = 25000; + + if (data.ch0 <= (data.gain == AlsGain501::GAIN_1 ? LOW_INTENSITY_THRESHOLD_1 : LOW_INTENSITY_THRESHOLD_200) || + (data.gain == AlsGain501::GAIN_1 && data.lux < 320)) { + GainTimePair next_pair = get_next(GAIN_TIME_PAIRS, current_pair); + if (next_pair != current_pair) { + data.gain = next_pair.gain; + data.integration_time = next_pair.time; + ESP_LOGV(TAG, "Low illuminance. Increasing sensitivity."); + return true; + } + + } else if (data.ch0 >= HIGH_INTENSITY_THRESHOLD || data.ch1 >= HIGH_INTENSITY_THRESHOLD) { + GainTimePair prev_pair = get_prev(GAIN_TIME_PAIRS, current_pair); + if (prev_pair != current_pair) { + data.gain = prev_pair.gain; + data.integration_time = prev_pair.time; + ESP_LOGV(TAG, "High illuminance. Decreasing sensitivity."); + return true; + } + } else { + ESP_LOGD(TAG, "Illuminance is good enough."); + return false; + } + ESP_LOGD(TAG, "Can't adjust sensitivity anymore."); + return false; +} + +void LTRAlsPs501Component::apply_lux_calculation_(AlsReadings &data) { + if ((data.ch0 == 0xFFFF) || (data.ch1 == 0xFFFF)) { + ESP_LOGW(TAG, "Sensors got saturated"); + data.lux = 0.0f; + return; + } + + if ((data.ch0 == 0x0000) && (data.ch1 == 0x0000)) { + ESP_LOGW(TAG, "Sensors blacked out"); + data.lux = 0.0f; + return; + } + + float ch0 = data.ch0; + float ch1 = data.ch1; + float ratio = ch1 / (ch0 + ch1); + float als_gain = get_gain_coeff(data.gain); + float als_time = ((float) get_itime_ms(data.integration_time)) / 100.0f; + float inv_pfactor = this->glass_attenuation_factor_; + float lux = 0.0f; + + // method from + // https://github.com/fards/Ainol_fire_kernel/blob/83832cf8a3082fd8e963230f4b1984479d1f1a84/customer/drivers/lightsensor/ltr501als.c#L295 + + if (ratio < 0.45) { + lux = 1.7743 * ch0 + 1.1059 * ch1; + } else if (ratio < 0.64) { + lux = 3.7725 * ch0 - 1.3363 * ch1; + } else if (ratio < 0.85) { + lux = 1.6903 * ch0 - 0.1693 * ch1; + } else { + ESP_LOGW(TAG, "Impossible ch1/(ch0 + ch1) ratio"); + lux = 0.0f; + } + + lux = inv_pfactor * lux / als_gain / als_time; + data.lux = lux; + + ESP_LOGD(TAG, "Lux calculation: ratio %.3f, gain %.0fx, int time %.1f, inv_pfactor %.3f, lux %.3f", ratio, als_gain, + als_time, inv_pfactor, lux); +} + +void LTRAlsPs501Component::publish_data_part_1_(AlsReadings &data) { + if (this->proximity_counts_sensor_ != nullptr) { + this->proximity_counts_sensor_->publish_state(this->ps_readings_); + } + if (this->ambient_light_sensor_ != nullptr) { + this->ambient_light_sensor_->publish_state(data.lux); + } + if (this->infrared_counts_sensor_ != nullptr) { + this->infrared_counts_sensor_->publish_state(data.ch1); + } + if (this->full_spectrum_counts_sensor_ != nullptr) { + this->full_spectrum_counts_sensor_->publish_state(data.ch0); + } +} + +void LTRAlsPs501Component::publish_data_part_2_(AlsReadings &data) { + if (this->actual_gain_sensor_ != nullptr) { + this->actual_gain_sensor_->publish_state(get_gain_coeff(data.gain)); + } + if (this->actual_integration_time_sensor_ != nullptr) { + this->actual_integration_time_sensor_->publish_state(get_itime_ms(data.integration_time)); + } +} +} // namespace ltr501 +} // namespace esphome diff --git a/esphome/components/ltr501/ltr501.h b/esphome/components/ltr501/ltr501.h new file mode 100644 index 0000000000..07b69fa0d0 --- /dev/null +++ b/esphome/components/ltr501/ltr501.h @@ -0,0 +1,184 @@ +#pragma once + +#include "esphome/components/i2c/i2c.h" +#include "esphome/components/sensor/sensor.h" +#include "esphome/core/component.h" +#include "esphome/core/optional.h" +#include "esphome/core/automation.h" + +#include "ltr_definitions_501.h" + +namespace esphome { +namespace ltr501 { + +enum DataAvail : uint8_t { NO_DATA, BAD_DATA, DATA_OK }; + +enum LtrType : uint8_t { + LTR_TYPE_UNKNOWN = 0, + LTR_TYPE_ALS_ONLY = 1, + LTR_TYPE_PS_ONLY = 2, + LTR_TYPE_ALS_AND_PS = 3, +}; + +class LTRAlsPs501Component : public PollingComponent, public i2c::I2CDevice { + public: + // + // EspHome framework functions + // + float get_setup_priority() const override { return setup_priority::DATA; } + void setup() override; + void dump_config() override; + void update() override; + void loop() override; + + // Configuration setters : General + // + void set_ltr_type(LtrType type) { this->ltr_type_ = type; } + + // Configuration setters : ALS + // + void set_als_auto_mode(bool enable) { this->automatic_mode_enabled_ = enable; } + void set_als_gain(AlsGain501 gain) { this->gain_ = gain; } + void set_als_integration_time(IntegrationTime501 time) { this->integration_time_ = time; } + void set_als_meas_repeat_rate(MeasurementRepeatRate rate) { this->repeat_rate_ = rate; } + void set_als_glass_attenuation_factor(float factor) { this->glass_attenuation_factor_ = factor; } + + // Configuration setters : PS + // + void set_ps_high_threshold(uint16_t threshold) { this->ps_threshold_high_ = threshold; } + void set_ps_low_threshold(uint16_t threshold) { this->ps_threshold_low_ = threshold; } + void set_ps_cooldown_time_s(uint16_t time) { this->ps_cooldown_time_s_ = time; } + void set_ps_gain(PsGain501 gain) { this->ps_gain_ = gain; } + + // Sensors setters + // + void set_ambient_light_sensor(sensor::Sensor *sensor) { this->ambient_light_sensor_ = sensor; } + void set_full_spectrum_counts_sensor(sensor::Sensor *sensor) { this->full_spectrum_counts_sensor_ = sensor; } + void set_infrared_counts_sensor(sensor::Sensor *sensor) { this->infrared_counts_sensor_ = sensor; } + void set_actual_gain_sensor(sensor::Sensor *sensor) { this->actual_gain_sensor_ = sensor; } + void set_actual_integration_time_sensor(sensor::Sensor *sensor) { this->actual_integration_time_sensor_ = sensor; } + void set_proximity_counts_sensor(sensor::Sensor *sensor) { this->proximity_counts_sensor_ = sensor; } + + protected: + // + // Internal state machine, used to split all the actions into + // small steps in loop() to make sure we are not blocking execution + // + enum class State : uint8_t { + NOT_INITIALIZED, + DELAYED_SETUP, + IDLE, + WAITING_FOR_DATA, + COLLECTING_DATA_AUTO, + DATA_COLLECTED, + ADJUSTMENT_IN_PROGRESS, + READY_TO_PUBLISH, + KEEP_PUBLISHING + } state_{State::NOT_INITIALIZED}; + + LtrType ltr_type_{LtrType::LTR_TYPE_ALS_ONLY}; + + // + // Current measurements data + // + struct AlsReadings { + uint16_t ch0{0}; + uint16_t ch1{0}; + AlsGain501 gain{AlsGain501::GAIN_1}; + IntegrationTime501 integration_time{IntegrationTime501::INTEGRATION_TIME_100MS}; + float lux{0.0f}; + uint8_t number_of_adjustments{0}; + } als_readings_; + uint16_t ps_readings_{0xfffe}; + + inline bool is_als_() const { + return this->ltr_type_ == LtrType::LTR_TYPE_ALS_ONLY || this->ltr_type_ == LtrType::LTR_TYPE_ALS_AND_PS; + } + inline bool is_ps_() const { + return this->ltr_type_ == LtrType::LTR_TYPE_PS_ONLY || this->ltr_type_ == LtrType::LTR_TYPE_ALS_AND_PS; + } + + // + // Device interaction and data manipulation + // + bool check_part_number_(); + + void configure_reset_(); + void configure_als_(); + void configure_integration_time_(IntegrationTime501 time); + void configure_gain_(AlsGain501 gain); + DataAvail is_als_data_ready_(AlsReadings &data); + void read_sensor_data_(AlsReadings &data); + bool are_adjustments_required_(AlsReadings &data); + void apply_lux_calculation_(AlsReadings &data); + void publish_data_part_1_(AlsReadings &data); + void publish_data_part_2_(AlsReadings &data); + + void configure_ps_(); + uint16_t read_ps_data_(); + void check_and_trigger_ps_(); + + // + // Component configuration + // + bool automatic_mode_enabled_{false}; + AlsGain501 gain_{AlsGain501::GAIN_1}; + IntegrationTime501 integration_time_{IntegrationTime501::INTEGRATION_TIME_100MS}; + MeasurementRepeatRate repeat_rate_{MeasurementRepeatRate::REPEAT_RATE_500MS}; + float glass_attenuation_factor_{1.0}; + + uint16_t ps_cooldown_time_s_{5}; + PsGain501 ps_gain_{PsGain501::PS_GAIN_1}; + uint16_t ps_threshold_high_{0xffff}; + uint16_t ps_threshold_low_{0x0000}; + + // + // Sensors for publishing data + // + sensor::Sensor *infrared_counts_sensor_{nullptr}; // direct reading CH1, infrared only + sensor::Sensor *full_spectrum_counts_sensor_{nullptr}; // direct reading CH0, infrared + visible light + sensor::Sensor *ambient_light_sensor_{nullptr}; // calculated lux + sensor::Sensor *actual_gain_sensor_{nullptr}; // actual gain of reading + sensor::Sensor *actual_integration_time_sensor_{nullptr}; // actual integration time + sensor::Sensor *proximity_counts_sensor_{nullptr}; // proximity sensor + + bool is_any_als_sensor_enabled_() const { + return this->ambient_light_sensor_ != nullptr || this->full_spectrum_counts_sensor_ != nullptr || + this->infrared_counts_sensor_ != nullptr || this->actual_gain_sensor_ != nullptr || + this->actual_integration_time_sensor_ != nullptr; + } + bool is_any_ps_sensor_enabled_() const { return this->proximity_counts_sensor_ != nullptr; } + + // + // Trigger section for the automations + // + friend class LTRPsHighTrigger; + friend class LTRPsLowTrigger; + + CallbackManager on_ps_high_trigger_callback_; + CallbackManager on_ps_low_trigger_callback_; + + void add_on_ps_high_trigger_callback_(std::function callback) { + this->on_ps_high_trigger_callback_.add(std::move(callback)); + } + + void add_on_ps_low_trigger_callback_(std::function callback) { + this->on_ps_low_trigger_callback_.add(std::move(callback)); + } +}; + +class LTRPsHighTrigger : public Trigger<> { + public: + explicit LTRPsHighTrigger(LTRAlsPs501Component *parent) { + parent->add_on_ps_high_trigger_callback_([this]() { this->trigger(); }); + } +}; + +class LTRPsLowTrigger : public Trigger<> { + public: + explicit LTRPsLowTrigger(LTRAlsPs501Component *parent) { + parent->add_on_ps_low_trigger_callback_([this]() { this->trigger(); }); + } +}; +} // namespace ltr501 +} // namespace esphome diff --git a/esphome/components/ltr501/ltr_definitions_501.h b/esphome/components/ltr501/ltr_definitions_501.h new file mode 100644 index 0000000000..604bd92b68 --- /dev/null +++ b/esphome/components/ltr501/ltr_definitions_501.h @@ -0,0 +1,260 @@ +#pragma once + +#include + +namespace esphome { +namespace ltr501 { + +enum class CommandRegisters : uint8_t { + ALS_CONTR = 0x80, // ALS operation mode control and SW reset + PS_CONTR = 0x81, // PS operation mode control + PS_LED = 0x82, // PS LED pulse frequency control + PS_N_PULSES = 0x83, // PS number of pulses control + PS_MEAS_RATE = 0x84, // PS measurement rate in active mode + MEAS_RATE = 0x85, // ALS measurement rate in active mode + PART_ID = 0x86, // Part Number ID and Revision ID + MANUFAC_ID = 0x87, // Manufacturer ID + ALS_DATA_CH1_0 = 0x88, // ALS measurement CH1 data, lower byte - infrared only + ALS_DATA_CH1_1 = 0x89, // ALS measurement CH1 data, upper byte - infrared only + ALS_DATA_CH0_0 = 0x8A, // ALS measurement CH0 data, lower byte - visible + infrared + ALS_DATA_CH0_1 = 0x8B, // ALS measurement CH0 data, upper byte - visible + infrared + ALS_PS_STATUS = 0x8C, // ALS PS new data status + PS_DATA_0 = 0x8D, // PS measurement data, lower byte + PS_DATA_1 = 0x8E, // PS measurement data, upper byte + ALS_PS_INTERRUPT = 0x8F, // Interrupt status + PS_THRES_UP_0 = 0x90, // PS interrupt upper threshold, lower byte + PS_THRES_UP_1 = 0x91, // PS interrupt upper threshold, upper byte + PS_THRES_LOW_0 = 0x92, // PS interrupt lower threshold, lower byte + PS_THRES_LOW_1 = 0x93, // PS interrupt lower threshold, upper byte + PS_OFFSET_1 = 0x94, // PS offset, upper byte + PS_OFFSET_0 = 0x95, // PS offset, lower byte + // 0x96 - reserved + ALS_THRES_UP_0 = 0x97, // ALS interrupt upper threshold, lower byte + ALS_THRES_UP_1 = 0x98, // ALS interrupt upper threshold, upper byte + ALS_THRES_LOW_0 = 0x99, // ALS interrupt lower threshold, lower byte + ALS_THRES_LOW_1 = 0x9A, // ALS interrupt lower threshold, upper byte + // 0x9B - reserved + // 0x9C - reserved + // 0x9D - reserved + INTERRUPT_PERSIST = 0x9E // Interrupt persistence filter +}; + +// ALS Sensor gain levels +enum AlsGain501 : uint8_t { + GAIN_1 = 0, // GAIN_RANGE_2 // default + GAIN_150 = 1, // GAIN_RANGE_1 +}; +static const uint8_t GAINS_COUNT = 2; + +// ALS Sensor integration times +enum IntegrationTime501 : uint8_t { + INTEGRATION_TIME_100MS = 0, // default + INTEGRATION_TIME_50MS = 1, // only in Dynamic GAIN_RANGE_2 + INTEGRATION_TIME_200MS = 2, // only in Dynamic GAIN_RANGE_1 + INTEGRATION_TIME_400MS = 3, // only in Dynamic GAIN_RANGE_1 +}; +static const uint8_t TIMES_COUNT = 4; + +// ALS Sensor measurement repeat rate +enum MeasurementRepeatRate { + REPEAT_RATE_50MS = 0, + REPEAT_RATE_100MS = 1, + REPEAT_RATE_200MS = 2, + REPEAT_RATE_500MS = 3, // default + REPEAT_RATE_1000MS = 4, + REPEAT_RATE_2000MS = 5 +}; + +// PS Sensor gain levels +enum PsGain501 : uint8_t { + PS_GAIN_1 = 0, // default + PS_GAIN_4 = 1, + PS_GAIN_8 = 2, + PS_GAIN_16 = 3, +}; + +// LED Pulse Modulation Frequency +enum PsLedFreq : uint8_t { + PS_LED_FREQ_30KHZ = 0, + PS_LED_FREQ_40KHZ = 1, + PS_LED_FREQ_50KHZ = 2, + PS_LED_FREQ_60KHZ = 3, // default + PS_LED_FREQ_70KHZ = 4, + PS_LED_FREQ_80KHZ = 5, + PS_LED_FREQ_90KHZ = 6, + PS_LED_FREQ_100KHZ = 7, +}; + +// LED current duty +enum PsLedDuty : uint8_t { + PS_LED_DUTY_25 = 0, + PS_LED_DUTY_50 = 1, // default + PS_LED_DUTY_75 = 2, + PS_LED_DUTY_100 = 3, +}; + +// LED pulsed current level +enum PsLedCurrent : uint8_t { + PS_LED_CURRENT_5MA = 0, + PS_LED_CURRENT_10MA = 1, + PS_LED_CURRENT_20MA = 2, + PS_LED_CURRENT_50MA = 3, // default + PS_LED_CURRENT_100MA = 4, + PS_LED_CURRENT_100MA1 = 5, + PS_LED_CURRENT_100MA2 = 6, + PS_LED_CURRENT_100MA3 = 7, +}; + +// PS measurement rate +enum PsMeasurementRate : uint8_t { + PS_MEAS_RATE_50MS = 0, + PS_MEAS_RATE_70MS = 1, + PS_MEAS_RATE_100MS = 2, // default + PS_MEAS_RATE_200MS = 3, + PS_MEAS_RATE_500MS = 4, + PS_MEAS_RATE_1000MS = 5, + PS_MEAS_RATE_2000MS = 6, + PS_MEAS_RATE_2000MS1 = 7, +}; + +// +// ALS_CONTR Register (0x80) +// +union AlsControlRegister501 { + uint8_t raw; + struct { + bool asl_mode_xxx : 1; + bool als_mode_active : 1; + bool sw_reset : 1; + AlsGain501 gain : 1; + uint8_t reserved : 4; + } __attribute__((packed)); +}; + +// +// PS_CONTR Register (0x81) +// +union PsControlRegister501 { + uint8_t raw; + struct { + bool ps_mode_xxx : 1; + bool ps_mode_active : 1; + PsGain501 ps_gain : 2; + bool reserved_4 : 1; + bool reserved_5 : 1; + bool reserved_6 : 1; + bool reserved_7 : 1; + } __attribute__((packed)); +}; + +// +// PS_LED Register (0x82) +// +union PsLedRegister { + uint8_t raw; + struct { + PsLedCurrent ps_led_current : 3; + PsLedDuty ps_led_duty : 2; + PsLedFreq ps_led_freq : 3; + } __attribute__((packed)); +}; + +// +// PS_N_PULSES Register (0x83) +// +union PsNPulsesRegister501 { + uint8_t raw; + uint8_t number_of_pulses; +}; + +// +// PS_MEAS_RATE Register (0x84) +// +union PsMeasurementRateRegister { + uint8_t raw; + struct { + PsMeasurementRate ps_measurement_rate : 4; + uint8_t reserved : 4; + } __attribute__((packed)); +}; + +// +// ALS_MEAS_RATE Register (0x85) +// +union MeasurementRateRegister501 { + uint8_t raw; + struct { + MeasurementRepeatRate measurement_repeat_rate : 3; + IntegrationTime501 integration_time : 2; + bool reserved_5 : 1; + bool reserved_6 : 1; + bool reserved_7 : 1; + } __attribute__((packed)); +}; + +// +// PART_ID Register (0x86) (Read Only) +// +union PartIdRegister { + uint8_t raw; + struct { + uint8_t part_number_id : 4; + uint8_t revision_id : 4; + } __attribute__((packed)); +}; + +// +// ALS_PS_STATUS Register (0x8C) (Read Only) +// +union AlsPsStatusRegister { + uint8_t raw; + struct { + bool ps_new_data : 1; // 0 - old data, 1 - new data + bool ps_interrupt : 1; // 0 - interrupt signal not active, 1 - interrupt signal active + bool als_new_data : 1; // 0 - old data, 1 - new data + bool als_interrupt : 1; // 0 - interrupt signal not active, 1 - interrupt signal active + AlsGain501 gain : 1; // current ALS gain + bool reserved_5 : 1; + bool reserved_6 : 1; + bool reserved_7 : 1; + } __attribute__((packed)); +}; + +// +// PS_DATA_1 Register (0x8E) (Read Only) +// +union PsData1Register { + uint8_t raw; + struct { + uint8_t ps_data_high : 3; + uint8_t reserved : 4; + bool ps_saturation_flag : 1; + } __attribute__((packed)); +}; + +// +// INTERRUPT Register (0x8F) (Read Only) +// +union InterruptRegister { + uint8_t raw; + struct { + bool ps_interrupt : 1; + bool als_interrupt : 1; + bool interrupt_polarity : 1; // 0 - active low (default), 1 - active high + uint8_t reserved : 5; + } __attribute__((packed)); +}; + +// +// INTERRUPT_PERSIST Register (0x9E) +// +union InterruptPersistRegister { + uint8_t raw; + struct { + uint8_t als_persist : 4; // 0 - every ALS cycle, 1 - every 2 ALS cycles, ... 15 - every 16 ALS cycles + uint8_t ps_persist : 4; // 0 - every PS cycle, 1 - every 2 PS cycles, ... 15 - every 16 PS cycles + } __attribute__((packed)); +}; + +} // namespace ltr501 +} // namespace esphome diff --git a/esphome/components/ltr501/sensor.py b/esphome/components/ltr501/sensor.py new file mode 100644 index 0000000000..153d1b3ad1 --- /dev/null +++ b/esphome/components/ltr501/sensor.py @@ -0,0 +1,274 @@ +import esphome.codegen as cg +import esphome.config_validation as cv +from esphome import automation +from esphome.components import i2c, sensor +from esphome.const import ( + CONF_ACTUAL_GAIN, + CONF_ACTUAL_INTEGRATION_TIME, + CONF_AMBIENT_LIGHT, + CONF_AUTO_MODE, + CONF_FULL_SPECTRUM_COUNTS, + CONF_GAIN, + CONF_GLASS_ATTENUATION_FACTOR, + CONF_ID, + CONF_INTEGRATION_TIME, + CONF_NAME, + CONF_REPEAT, + CONF_TRIGGER_ID, + CONF_TYPE, + DEVICE_CLASS_DISTANCE, + DEVICE_CLASS_ILLUMINANCE, + ICON_BRIGHTNESS_5, + ICON_BRIGHTNESS_6, + ICON_TIMER, + STATE_CLASS_MEASUREMENT, + UNIT_LUX, + UNIT_MILLISECOND, +) + +CODEOWNERS = ["@latonita"] +DEPENDENCIES = ["i2c"] + +CONF_INFRARED_COUNTS = "infrared_counts" +CONF_ON_PS_HIGH_THRESHOLD = "on_ps_high_threshold" +CONF_ON_PS_LOW_THRESHOLD = "on_ps_low_threshold" +CONF_PS_COOLDOWN = "ps_cooldown" +CONF_PS_COUNTS = "ps_counts" +CONF_PS_GAIN = "ps_gain" +CONF_PS_HIGH_THRESHOLD = "ps_high_threshold" +CONF_PS_LOW_THRESHOLD = "ps_low_threshold" +ICON_BRIGHTNESS_7 = "mdi:brightness-7" +ICON_GAIN = "mdi:multiplication" +ICON_PROXIMITY = "mdi:hand-wave-outline" +UNIT_COUNTS = "#" + +ltr501_ns = cg.esphome_ns.namespace("ltr501") + +LTRAlsPsComponent = ltr501_ns.class_( + "LTRAlsPs501Component", cg.PollingComponent, i2c.I2CDevice +) + +LtrType = ltr501_ns.enum("LtrType") +LTR_TYPES = { + "ALS": LtrType.LTR_TYPE_ALS_ONLY, + "PS": LtrType.LTR_TYPE_PS_ONLY, + "ALS_PS": LtrType.LTR_TYPE_ALS_AND_PS, +} + +AlsGain = ltr501_ns.enum("AlsGain501") +ALS_GAINS = { + "1X": AlsGain.GAIN_1, + "150X": AlsGain.GAIN_150, +} + +IntegrationTime = ltr501_ns.enum("IntegrationTime501") +INTEGRATION_TIMES = { + 50: IntegrationTime.INTEGRATION_TIME_50MS, + 100: IntegrationTime.INTEGRATION_TIME_100MS, + 200: IntegrationTime.INTEGRATION_TIME_200MS, + 400: IntegrationTime.INTEGRATION_TIME_400MS, +} + +MeasurementRepeatRate = ltr501_ns.enum("MeasurementRepeatRate") +MEASUREMENT_REPEAT_RATES = { + 50: MeasurementRepeatRate.REPEAT_RATE_50MS, + 100: MeasurementRepeatRate.REPEAT_RATE_100MS, + 200: MeasurementRepeatRate.REPEAT_RATE_200MS, + 500: MeasurementRepeatRate.REPEAT_RATE_500MS, + 1000: MeasurementRepeatRate.REPEAT_RATE_1000MS, + 2000: MeasurementRepeatRate.REPEAT_RATE_2000MS, +} + +PsGain = ltr501_ns.enum("PsGain501") +PS_GAINS = { + "1X": PsGain.PS_GAIN_1, + "4X": PsGain.PS_GAIN_4, + "8X": PsGain.PS_GAIN_8, + "16X": PsGain.PS_GAIN_16, +} + +LTRPsHighTrigger = ltr501_ns.class_("LTRPsHighTrigger", automation.Trigger.template()) +LTRPsLowTrigger = ltr501_ns.class_("LTRPsLowTrigger", automation.Trigger.template()) + + +def validate_integration_time(value): + value = cv.positive_time_period_milliseconds(value).total_milliseconds + return cv.enum(INTEGRATION_TIMES, int=True)(value) + + +def validate_repeat_rate(value): + value = cv.positive_time_period_milliseconds(value).total_milliseconds + return cv.enum(MEASUREMENT_REPEAT_RATES, int=True)(value) + + +def validate_time_and_repeat_rate(config): + integraton_time = config[CONF_INTEGRATION_TIME] + repeat_rate = config[CONF_REPEAT] + if integraton_time > repeat_rate: + raise cv.Invalid( + f"Measurement repeat rate ({repeat_rate}ms) shall be greater or equal to integration time ({integraton_time}ms)" + ) + return config + + +def validate_als_gain_and_integration_time(config): + integraton_time = config[CONF_INTEGRATION_TIME] + if config[CONF_GAIN] == "1X" and integraton_time > 100: + raise cv.Invalid( + "ALS gain 1X can only be used with integration time 50ms or 100ms" + ) + if config[CONF_GAIN] == "200X" and integraton_time == 50: + raise cv.Invalid("ALS gain 200X can not be used with integration time 50ms") + return config + + +CONFIG_SCHEMA = cv.All( + cv.Schema( + { + cv.GenerateID(): cv.declare_id(LTRAlsPsComponent), + cv.Optional(CONF_TYPE, default="ALS_PS"): cv.enum(LTR_TYPES, upper=True), + cv.Optional(CONF_AUTO_MODE, default=True): cv.boolean, + cv.Optional(CONF_GAIN, default="1X"): cv.enum(ALS_GAINS, upper=True), + cv.Optional( + CONF_INTEGRATION_TIME, default="100ms" + ): validate_integration_time, + cv.Optional(CONF_REPEAT, default="500ms"): validate_repeat_rate, + cv.Optional(CONF_GLASS_ATTENUATION_FACTOR, default=1.0): cv.float_range( + min=1.0 + ), + cv.Optional( + CONF_PS_COOLDOWN, default="5s" + ): cv.positive_time_period_seconds, + cv.Optional(CONF_PS_GAIN, default="1X"): cv.enum(PS_GAINS, upper=True), + cv.Optional(CONF_PS_HIGH_THRESHOLD, default=65535): cv.int_range( + min=0, max=65535 + ), + cv.Optional(CONF_PS_LOW_THRESHOLD, default=0): cv.int_range( + min=0, max=65535 + ), + cv.Optional(CONF_ON_PS_HIGH_THRESHOLD): automation.validate_automation( + { + cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(LTRPsHighTrigger), + } + ), + cv.Optional(CONF_ON_PS_LOW_THRESHOLD): automation.validate_automation( + { + cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(LTRPsLowTrigger), + } + ), + cv.Optional(CONF_AMBIENT_LIGHT): cv.maybe_simple_value( + sensor.sensor_schema( + unit_of_measurement=UNIT_LUX, + icon=ICON_BRIGHTNESS_6, + accuracy_decimals=1, + device_class=DEVICE_CLASS_ILLUMINANCE, + state_class=STATE_CLASS_MEASUREMENT, + ), + key=CONF_NAME, + ), + cv.Optional(CONF_INFRARED_COUNTS): cv.maybe_simple_value( + sensor.sensor_schema( + unit_of_measurement=UNIT_COUNTS, + icon=ICON_BRIGHTNESS_5, + accuracy_decimals=0, + device_class=DEVICE_CLASS_ILLUMINANCE, + state_class=STATE_CLASS_MEASUREMENT, + ), + key=CONF_NAME, + ), + cv.Optional(CONF_FULL_SPECTRUM_COUNTS): cv.maybe_simple_value( + sensor.sensor_schema( + unit_of_measurement=UNIT_COUNTS, + icon=ICON_BRIGHTNESS_7, + accuracy_decimals=0, + device_class=DEVICE_CLASS_ILLUMINANCE, + state_class=STATE_CLASS_MEASUREMENT, + ), + key=CONF_NAME, + ), + cv.Optional(CONF_PS_COUNTS): cv.maybe_simple_value( + sensor.sensor_schema( + unit_of_measurement=UNIT_COUNTS, + icon=ICON_PROXIMITY, + accuracy_decimals=0, + device_class=DEVICE_CLASS_DISTANCE, + state_class=STATE_CLASS_MEASUREMENT, + ), + key=CONF_NAME, + ), + cv.Optional(CONF_ACTUAL_GAIN): cv.maybe_simple_value( + sensor.sensor_schema( + icon=ICON_GAIN, + accuracy_decimals=0, + device_class=DEVICE_CLASS_ILLUMINANCE, + state_class=STATE_CLASS_MEASUREMENT, + ), + key=CONF_NAME, + ), + cv.Optional(CONF_ACTUAL_INTEGRATION_TIME): cv.maybe_simple_value( + sensor.sensor_schema( + unit_of_measurement=UNIT_MILLISECOND, + icon=ICON_TIMER, + accuracy_decimals=0, + state_class=STATE_CLASS_MEASUREMENT, + ), + key=CONF_NAME, + ), + } + ) + .extend(cv.polling_component_schema("60s")) + .extend(i2c.i2c_device_schema(0x23)), + validate_time_and_repeat_rate, + validate_als_gain_and_integration_time, +) + + +async def to_code(config): + var = cg.new_Pvariable(config[CONF_ID]) + await cg.register_component(var, config) + await i2c.register_i2c_device(var, config) + + if als_config := config.get(CONF_AMBIENT_LIGHT): + sens = await sensor.new_sensor(als_config) + cg.add(var.set_ambient_light_sensor(sens)) + + if infrared_cnt_config := config.get(CONF_INFRARED_COUNTS): + sens = await sensor.new_sensor(infrared_cnt_config) + cg.add(var.set_infrared_counts_sensor(sens)) + + if full_spect_cnt_config := config.get(CONF_FULL_SPECTRUM_COUNTS): + sens = await sensor.new_sensor(full_spect_cnt_config) + cg.add(var.set_full_spectrum_counts_sensor(sens)) + + if act_gain_config := config.get(CONF_ACTUAL_GAIN): + sens = await sensor.new_sensor(act_gain_config) + cg.add(var.set_actual_gain_sensor(sens)) + + if act_itime_config := config.get(CONF_ACTUAL_INTEGRATION_TIME): + sens = await sensor.new_sensor(act_itime_config) + cg.add(var.set_actual_integration_time_sensor(sens)) + + if prox_cnt_config := config.get(CONF_PS_COUNTS): + sens = await sensor.new_sensor(prox_cnt_config) + cg.add(var.set_proximity_counts_sensor(sens)) + + for prox_high_tr in config.get(CONF_ON_PS_HIGH_THRESHOLD, []): + trigger = cg.new_Pvariable(prox_high_tr[CONF_TRIGGER_ID], var) + await automation.build_automation(trigger, [], prox_high_tr) + + for prox_low_tr in config.get(CONF_ON_PS_LOW_THRESHOLD, []): + trigger = cg.new_Pvariable(prox_low_tr[CONF_TRIGGER_ID], var) + await automation.build_automation(trigger, [], prox_low_tr) + + cg.add(var.set_ltr_type(config[CONF_TYPE])) + + cg.add(var.set_als_auto_mode(config[CONF_AUTO_MODE])) + cg.add(var.set_als_gain(config[CONF_GAIN])) + cg.add(var.set_als_integration_time(config[CONF_INTEGRATION_TIME])) + cg.add(var.set_als_meas_repeat_rate(config[CONF_REPEAT])) + cg.add(var.set_als_glass_attenuation_factor(config[CONF_GLASS_ATTENUATION_FACTOR])) + + cg.add(var.set_ps_cooldown_time_s(config[CONF_PS_COOLDOWN])) + cg.add(var.set_ps_gain(config[CONF_PS_GAIN])) + cg.add(var.set_ps_high_threshold(config[CONF_PS_HIGH_THRESHOLD])) + cg.add(var.set_ps_low_threshold(config[CONF_PS_LOW_THRESHOLD])) diff --git a/esphome/components/ltr_als_ps/sensor.py b/esphome/components/ltr_als_ps/sensor.py index ac9f7e6788..e9a5264941 100644 --- a/esphome/components/ltr_als_ps/sensor.py +++ b/esphome/components/ltr_als_ps/sensor.py @@ -4,8 +4,10 @@ from esphome import automation from esphome.components import i2c, sensor from esphome.const import ( CONF_ACTUAL_GAIN, + CONF_ACTUAL_INTEGRATION_TIME, CONF_AMBIENT_LIGHT, CONF_AUTO_MODE, + CONF_FULL_SPECTRUM_COUNTS, CONF_GAIN, CONF_GLASS_ATTENUATION_FACTOR, CONF_ID, @@ -27,8 +29,6 @@ from esphome.const import ( CODEOWNERS = ["@latonita"] DEPENDENCIES = ["i2c"] -CONF_ACTUAL_INTEGRATION_TIME = "actual_integration_time" -CONF_FULL_SPECTRUM_COUNTS = "full_spectrum_counts" CONF_INFRARED_COUNTS = "infrared_counts" CONF_ON_PS_HIGH_THRESHOLD = "on_ps_high_threshold" CONF_ON_PS_LOW_THRESHOLD = "on_ps_low_threshold" diff --git a/esphome/components/veml7700/sensor.py b/esphome/components/veml7700/sensor.py index 7b0f75e70c..308f1c1c00 100644 --- a/esphome/components/veml7700/sensor.py +++ b/esphome/components/veml7700/sensor.py @@ -3,9 +3,11 @@ import esphome.config_validation as cv from esphome.components import i2c, sensor from esphome.const import ( CONF_ACTUAL_GAIN, + CONF_ACTUAL_INTEGRATION_TIME, CONF_AMBIENT_LIGHT, CONF_AUTO_MODE, CONF_FULL_SPECTRUM, + CONF_FULL_SPECTRUM_COUNTS, CONF_GAIN, CONF_GLASS_ATTENUATION_FACTOR, CONF_ID, @@ -28,9 +30,7 @@ UNIT_COUNTS = "#" ICON_MULTIPLICATION = "mdi:multiplication" ICON_BRIGHTNESS_7 = "mdi:brightness-7" -CONF_ACTUAL_INTEGRATION_TIME = "actual_integration_time" CONF_AMBIENT_LIGHT_COUNTS = "ambient_light_counts" -CONF_FULL_SPECTRUM_COUNTS = "full_spectrum_counts" CONF_LUX_COMPENSATION = "lux_compensation" veml7700_ns = cg.esphome_ns.namespace("veml7700") diff --git a/esphome/const.py b/esphome/const.py index 95773630d0..169b11a715 100644 --- a/esphome/const.py +++ b/esphome/const.py @@ -44,6 +44,7 @@ CONF_ACTIONS = "actions" CONF_ACTIVE = "active" CONF_ACTIVE_POWER = "active_power" CONF_ACTUAL_GAIN = "actual_gain" +CONF_ACTUAL_INTEGRATION_TIME = "actual_integration_time" CONF_ADDRESS = "address" CONF_ADDRESSABLE_LIGHT_ID = "addressable_light_id" CONF_ADVANCED = "advanced" @@ -323,6 +324,7 @@ CONF_FREQUENCY = "frequency" CONF_FRIENDLY_NAME = "friendly_name" CONF_FROM = "from" CONF_FULL_SPECTRUM = "full_spectrum" +CONF_FULL_SPECTRUM_COUNTS = "full_spectrum_counts" CONF_FULL_UPDATE_EVERY = "full_update_every" CONF_GAIN = "gain" CONF_GAMMA_CORRECT = "gamma_correct" diff --git a/tests/components/ltr501/common.yaml b/tests/components/ltr501/common.yaml new file mode 100644 index 0000000000..b7074f52f2 --- /dev/null +++ b/tests/components/ltr501/common.yaml @@ -0,0 +1,9 @@ +sensor: + - platform: ltr501 + address: 0x23 + i2c_id: i2c_ltr501 + type: ALS_PS + gain: 1X + integration_time: 100ms + ambient_light: "Ambient light" + ps_counts: "Proximity counts" diff --git a/tests/components/ltr501/test.esp32-ard.yaml b/tests/components/ltr501/test.esp32-ard.yaml new file mode 100644 index 0000000000..4c710c74fe --- /dev/null +++ b/tests/components/ltr501/test.esp32-ard.yaml @@ -0,0 +1,6 @@ +i2c: + - id: i2c_ltr501 + scl: 16 + sda: 17 + +<<: !include common.yaml diff --git a/tests/components/ltr501/test.esp32-c3-ard.yaml b/tests/components/ltr501/test.esp32-c3-ard.yaml new file mode 100644 index 0000000000..9e7de2768d --- /dev/null +++ b/tests/components/ltr501/test.esp32-c3-ard.yaml @@ -0,0 +1,6 @@ +i2c: + - id: i2c_ltr501 + scl: 5 + sda: 4 + +<<: !include common.yaml diff --git a/tests/components/ltr501/test.esp32-c3-idf.yaml b/tests/components/ltr501/test.esp32-c3-idf.yaml new file mode 100644 index 0000000000..9e7de2768d --- /dev/null +++ b/tests/components/ltr501/test.esp32-c3-idf.yaml @@ -0,0 +1,6 @@ +i2c: + - id: i2c_ltr501 + scl: 5 + sda: 4 + +<<: !include common.yaml diff --git a/tests/components/ltr501/test.esp32-idf.yaml b/tests/components/ltr501/test.esp32-idf.yaml new file mode 100644 index 0000000000..4c710c74fe --- /dev/null +++ b/tests/components/ltr501/test.esp32-idf.yaml @@ -0,0 +1,6 @@ +i2c: + - id: i2c_ltr501 + scl: 16 + sda: 17 + +<<: !include common.yaml diff --git a/tests/components/ltr501/test.esp8266-ard.yaml b/tests/components/ltr501/test.esp8266-ard.yaml new file mode 100644 index 0000000000..9e7de2768d --- /dev/null +++ b/tests/components/ltr501/test.esp8266-ard.yaml @@ -0,0 +1,6 @@ +i2c: + - id: i2c_ltr501 + scl: 5 + sda: 4 + +<<: !include common.yaml diff --git a/tests/components/ltr501/test.rp2040-ard.yaml b/tests/components/ltr501/test.rp2040-ard.yaml new file mode 100644 index 0000000000..9e7de2768d --- /dev/null +++ b/tests/components/ltr501/test.rp2040-ard.yaml @@ -0,0 +1,6 @@ +i2c: + - id: i2c_ltr501 + scl: 5 + sda: 4 + +<<: !include common.yaml