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Code Issues Releases Wiki Activity

Add support for QMP6988 Pressure sensor (#3192)

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This commit is contained in:
andrewpc
2022-03-15 06:09:17 +11:00
committed by GitHub
parent 59f67796dc
commit 99f5ed1461
6 changed files with 627 additions and 0 deletions
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CODEOWNERS
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@@ -151,6 +151,7 @@ esphome/components/preferences/* @esphome/core
esphome/components/psram/* @esphome/core
esphome/components/pulse_meter/* @cstaahl @stevebaxter
esphome/components/pvvx_mithermometer/* @pasiz
esphome/components/qmp6988/* @andrewpc
esphome/components/qr_code/* @wjtje
esphome/components/radon_eye_ble/* @jeffeb3
esphome/components/radon_eye_rd200/* @jeffeb3

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esphome/components/qmp6988/__init__.py Normal file
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CODEOWNERS = ["@andrewpc"]

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esphome/components/qmp6988/qmp6988.cpp Normal file
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#include "qmp6988.h"
#include <cmath>
namespace esphome {
namespace qmp6988 {
static const uint8_t QMP6988_CHIP_ID = 0x5C;
static const uint8_t QMP6988_CHIP_ID_REG = 0xD1; /* Chip ID confirmation Register */
static const uint8_t QMP6988_RESET_REG = 0xE0; /* Device reset register */
static const uint8_t QMP6988_DEVICE_STAT_REG = 0xF3; /* Device state register */
static const uint8_t QMP6988_CTRLMEAS_REG = 0xF4; /* Measurement Condition Control Register */
/* data */
static const uint8_t QMP6988_PRESSURE_MSB_REG = 0xF7; /* Pressure MSB Register */
static const uint8_t QMP6988_TEMPERATURE_MSB_REG = 0xFA; /* Temperature MSB Reg */
/* compensation calculation */
static const uint8_t QMP6988_CALIBRATION_DATA_START = 0xA0; /* QMP6988 compensation coefficients */
static const uint8_t QMP6988_CALIBRATION_DATA_LENGTH = 25;
static const uint8_t SHIFT_RIGHT_4_POSITION = 4;
static const uint8_t SHIFT_LEFT_2_POSITION = 2;
static const uint8_t SHIFT_LEFT_4_POSITION = 4;
static const uint8_t SHIFT_LEFT_5_POSITION = 5;
static const uint8_t SHIFT_LEFT_8_POSITION = 8;
static const uint8_t SHIFT_LEFT_12_POSITION = 12;
static const uint8_t SHIFT_LEFT_16_POSITION = 16;
/* power mode */
static const uint8_t QMP6988_SLEEP_MODE = 0x00;
static const uint8_t QMP6988_FORCED_MODE = 0x01;
static const uint8_t QMP6988_NORMAL_MODE = 0x03;
static const uint8_t QMP6988_CTRLMEAS_REG_MODE_POS = 0;
static const uint8_t QMP6988_CTRLMEAS_REG_MODE_MSK = 0x03;
static const uint8_t QMP6988_CTRLMEAS_REG_MODE_LEN = 2;
static const uint8_t QMP6988_CTRLMEAS_REG_OSRST_POS = 5;
static const uint8_t QMP6988_CTRLMEAS_REG_OSRST_MSK = 0xE0;
static const uint8_t QMP6988_CTRLMEAS_REG_OSRST_LEN = 3;
static const uint8_t QMP6988_CTRLMEAS_REG_OSRSP_POS = 2;
static const uint8_t QMP6988_CTRLMEAS_REG_OSRSP_MSK = 0x1C;
static const uint8_t QMP6988_CTRLMEAS_REG_OSRSP_LEN = 3;
static const uint8_t QMP6988_CONFIG_REG = 0xF1; /*IIR filter co-efficient setting Register*/
static const uint8_t QMP6988_CONFIG_REG_FILTER_POS = 0;
static const uint8_t QMP6988_CONFIG_REG_FILTER_MSK = 0x07;
static const uint8_t QMP6988_CONFIG_REG_FILTER_LEN = 3;
static const uint32_t SUBTRACTOR = 8388608;
static const char *const TAG = "qmp6988";
static const char *oversampling_to_str(QMP6988Oversampling oversampling) {
switch (oversampling) {
case QMP6988_OVERSAMPLING_SKIPPED:
return "None";
case QMP6988_OVERSAMPLING_1X:
return "1x";
case QMP6988_OVERSAMPLING_2X:
return "2x";
case QMP6988_OVERSAMPLING_4X:
return "4x";
case QMP6988_OVERSAMPLING_8X:
return "8x";
case QMP6988_OVERSAMPLING_16X:
return "16x";
case QMP6988_OVERSAMPLING_32X:
return "32x";
case QMP6988_OVERSAMPLING_64X:
return "64x";
default:
return "UNKNOWN";
}
}
static const char *iir_filter_to_str(QMP6988IIRFilter filter) {
switch (filter) {
case QMP6988_IIR_FILTER_OFF:
return "OFF";
case QMP6988_IIR_FILTER_2X:
return "2x";
case QMP6988_IIR_FILTER_4X:
return "4x";
case QMP6988_IIR_FILTER_8X:
return "8x";
case QMP6988_IIR_FILTER_16X:
return "16x";
case QMP6988_IIR_FILTER_32X:
return "32x";
default:
return "UNKNOWN";
}
}
bool QMP6988Component::device_check_() {
uint8_t ret = 0;
ret = this->read_register(QMP6988_CHIP_ID_REG, &(qmp6988_data_.chip_id), 1);
if (ret != i2c::ERROR_OK) {
ESP_LOGE(TAG, "%s: read chip ID (0xD1) failed", __func__);
}
ESP_LOGD(TAG, "qmp6988 read chip id = 0x%x", qmp6988_data_.chip_id);
return qmp6988_data_.chip_id == QMP6988_CHIP_ID;
}
bool QMP6988Component::get_calibration_data_() {
uint8_t status = 0;
// BITFIELDS temp_COE;
uint8_t a_data_uint8_tr[QMP6988_CALIBRATION_DATA_LENGTH] = {0};
int len;
for (len = 0; len < QMP6988_CALIBRATION_DATA_LENGTH; len += 1) {
status = this->read_register(QMP6988_CALIBRATION_DATA_START + len, &a_data_uint8_tr[len], 1);
if (status != i2c::ERROR_OK) {
ESP_LOGE(TAG, "qmp6988 read calibration data (0xA0) error!");
return false;
}
}
qmp6988_data_.qmp6988_cali.COE_a0 =
(QMP6988_S32_t)(((a_data_uint8_tr[18] << SHIFT_LEFT_12_POSITION) |
(a_data_uint8_tr[19] << SHIFT_LEFT_4_POSITION) | (a_data_uint8_tr[24] & 0x0f))
<< 12);
qmp6988_data_.qmp6988_cali.COE_a0 = qmp6988_data_.qmp6988_cali.COE_a0 >> 12;
qmp6988_data_.qmp6988_cali.COE_a1 =
(QMP6988_S16_t)(((a_data_uint8_tr[20]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[21]);
qmp6988_data_.qmp6988_cali.COE_a2 =
(QMP6988_S16_t)(((a_data_uint8_tr[22]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[23]);
qmp6988_data_.qmp6988_cali.COE_b00 =
(QMP6988_S32_t)(((a_data_uint8_tr[0] << SHIFT_LEFT_12_POSITION) | (a_data_uint8_tr[1] << SHIFT_LEFT_4_POSITION) |
((a_data_uint8_tr[24] & 0xf0) >> SHIFT_RIGHT_4_POSITION))
<< 12);
qmp6988_data_.qmp6988_cali.COE_b00 = qmp6988_data_.qmp6988_cali.COE_b00 >> 12;
qmp6988_data_.qmp6988_cali.COE_bt1 =
(QMP6988_S16_t)(((a_data_uint8_tr[2]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[3]);
qmp6988_data_.qmp6988_cali.COE_bt2 =
(QMP6988_S16_t)(((a_data_uint8_tr[4]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[5]);
qmp6988_data_.qmp6988_cali.COE_bp1 =
(QMP6988_S16_t)(((a_data_uint8_tr[6]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[7]);
qmp6988_data_.qmp6988_cali.COE_b11 =
(QMP6988_S16_t)(((a_data_uint8_tr[8]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[9]);
qmp6988_data_.qmp6988_cali.COE_bp2 =
(QMP6988_S16_t)(((a_data_uint8_tr[10]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[11]);
qmp6988_data_.qmp6988_cali.COE_b12 =
(QMP6988_S16_t)(((a_data_uint8_tr[12]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[13]);
qmp6988_data_.qmp6988_cali.COE_b21 =
(QMP6988_S16_t)(((a_data_uint8_tr[14]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[15]);
qmp6988_data_.qmp6988_cali.COE_bp3 =
(QMP6988_S16_t)(((a_data_uint8_tr[16]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[17]);
ESP_LOGV(TAG, "<-----------calibration data-------------->\r\n");
ESP_LOGV(TAG, "COE_a0[%d] COE_a1[%d] COE_a2[%d] COE_b00[%d]\r\n", qmp6988_data_.qmp6988_cali.COE_a0,
qmp6988_data_.qmp6988_cali.COE_a1, qmp6988_data_.qmp6988_cali.COE_a2, qmp6988_data_.qmp6988_cali.COE_b00);
ESP_LOGV(TAG, "COE_bt1[%d] COE_bt2[%d] COE_bp1[%d] COE_b11[%d]\r\n", qmp6988_data_.qmp6988_cali.COE_bt1,
qmp6988_data_.qmp6988_cali.COE_bt2, qmp6988_data_.qmp6988_cali.COE_bp1, qmp6988_data_.qmp6988_cali.COE_b11);
ESP_LOGV(TAG, "COE_bp2[%d] COE_b12[%d] COE_b21[%d] COE_bp3[%d]\r\n", qmp6988_data_.qmp6988_cali.COE_bp2,
qmp6988_data_.qmp6988_cali.COE_b12, qmp6988_data_.qmp6988_cali.COE_b21, qmp6988_data_.qmp6988_cali.COE_bp3);
ESP_LOGV(TAG, "<-----------calibration data-------------->\r\n");
qmp6988_data_.ik.a0 = qmp6988_data_.qmp6988_cali.COE_a0; // 20Q4
qmp6988_data_.ik.b00 = qmp6988_data_.qmp6988_cali.COE_b00; // 20Q4
qmp6988_data_.ik.a1 = 3608L * (QMP6988_S32_t) qmp6988_data_.qmp6988_cali.COE_a1 - 1731677965L; // 31Q23
qmp6988_data_.ik.a2 = 16889L * (QMP6988_S32_t) qmp6988_data_.qmp6988_cali.COE_a2 - 87619360L; // 30Q47
qmp6988_data_.ik.bt1 = 2982L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_bt1 + 107370906L; // 28Q15
qmp6988_data_.ik.bt2 = 329854L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_bt2 + 108083093L; // 34Q38
qmp6988_data_.ik.bp1 = 19923L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_bp1 + 1133836764L; // 31Q20
qmp6988_data_.ik.b11 = 2406L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_b11 + 118215883L; // 28Q34
qmp6988_data_.ik.bp2 = 3079L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_bp2 - 181579595L; // 29Q43
qmp6988_data_.ik.b12 = 6846L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_b12 + 85590281L; // 29Q53
qmp6988_data_.ik.b21 = 13836L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_b21 + 79333336L; // 29Q60
qmp6988_data_.ik.bp3 = 2915L * (QMP6988_S64_t) qmp6988_data_.qmp6988_cali.COE_bp3 + 157155561L; // 28Q65
ESP_LOGV(TAG, "<----------- int calibration data -------------->\r\n");
ESP_LOGV(TAG, "a0[%d] a1[%d] a2[%d] b00[%d]\r\n", qmp6988_data_.ik.a0, qmp6988_data_.ik.a1, qmp6988_data_.ik.a2,
qmp6988_data_.ik.b00);
ESP_LOGV(TAG, "bt1[%lld] bt2[%lld] bp1[%lld] b11[%lld]\r\n", qmp6988_data_.ik.bt1, qmp6988_data_.ik.bt2,
qmp6988_data_.ik.bp1, qmp6988_data_.ik.b11);
ESP_LOGV(TAG, "bp2[%lld] b12[%lld] b21[%lld] bp3[%lld]\r\n", qmp6988_data_.ik.bp2, qmp6988_data_.ik.b12,
qmp6988_data_.ik.b21, qmp6988_data_.ik.bp3);
ESP_LOGV(TAG, "<----------- int calibration data -------------->\r\n");
return true;
}
QMP6988_S16_t QMP6988Component::get_compensated_temperature_(qmp6988_ik_data_t *ik, QMP6988_S32_t dt) {
QMP6988_S16_t ret;
QMP6988_S64_t wk1, wk2;
// wk1: 60Q4 // bit size
wk1 = ((QMP6988_S64_t) ik->a1 * (QMP6988_S64_t) dt); // 31Q23+24-1=54 (54Q23)
wk2 = ((QMP6988_S64_t) ik->a2 * (QMP6988_S64_t) dt) >> 14; // 30Q47+24-1=53 (39Q33)
wk2 = (wk2 * (QMP6988_S64_t) dt) >> 10; // 39Q33+24-1=62 (52Q23)
wk2 = ((wk1 + wk2) / 32767) >> 19; // 54,52->55Q23 (20Q04)
ret = (QMP6988_S16_t)((ik->a0 + wk2) >> 4); // 21Q4 -> 17Q0
return ret;
}
QMP6988_S32_t QMP6988Component::get_compensated_pressure_(qmp6988_ik_data_t *ik, QMP6988_S32_t dp, QMP6988_S16_t tx) {
QMP6988_S32_t ret;
QMP6988_S64_t wk1, wk2, wk3;
// wk1 = 48Q16 // bit size
wk1 = ((QMP6988_S64_t) ik->bt1 * (QMP6988_S64_t) tx); // 28Q15+16-1=43 (43Q15)
wk2 = ((QMP6988_S64_t) ik->bp1 * (QMP6988_S64_t) dp) >> 5; // 31Q20+24-1=54 (49Q15)
wk1 += wk2; // 43,49->50Q15
wk2 = ((QMP6988_S64_t) ik->bt2 * (QMP6988_S64_t) tx) >> 1; // 34Q38+16-1=49 (48Q37)
wk2 = (wk2 * (QMP6988_S64_t) tx) >> 8; // 48Q37+16-1=63 (55Q29)
wk3 = wk2; // 55Q29
wk2 = ((QMP6988_S64_t) ik->b11 * (QMP6988_S64_t) tx) >> 4; // 28Q34+16-1=43 (39Q30)
wk2 = (wk2 * (QMP6988_S64_t) dp) >> 1; // 39Q30+24-1=62 (61Q29)
wk3 += wk2; // 55,61->62Q29
wk2 = ((QMP6988_S64_t) ik->bp2 * (QMP6988_S64_t) dp) >> 13; // 29Q43+24-1=52 (39Q30)
wk2 = (wk2 * (QMP6988_S64_t) dp) >> 1; // 39Q30+24-1=62 (61Q29)
wk3 += wk2; // 62,61->63Q29
wk1 += wk3 >> 14; // Q29 >> 14 -> Q15
wk2 = ((QMP6988_S64_t) ik->b12 * (QMP6988_S64_t) tx); // 29Q53+16-1=45 (45Q53)
wk2 = (wk2 * (QMP6988_S64_t) tx) >> 22; // 45Q53+16-1=61 (39Q31)
wk2 = (wk2 * (QMP6988_S64_t) dp) >> 1; // 39Q31+24-1=62 (61Q30)
wk3 = wk2; // 61Q30
wk2 = ((QMP6988_S64_t) ik->b21 * (QMP6988_S64_t) tx) >> 6; // 29Q60+16-1=45 (39Q54)
wk2 = (wk2 * (QMP6988_S64_t) dp) >> 23; // 39Q54+24-1=62 (39Q31)
wk2 = (wk2 * (QMP6988_S64_t) dp) >> 1; // 39Q31+24-1=62 (61Q20)
wk3 += wk2; // 61,61->62Q30
wk2 = ((QMP6988_S64_t) ik->bp3 * (QMP6988_S64_t) dp) >> 12; // 28Q65+24-1=51 (39Q53)
wk2 = (wk2 * (QMP6988_S64_t) dp) >> 23; // 39Q53+24-1=62 (39Q30)
wk2 = (wk2 * (QMP6988_S64_t) dp); // 39Q30+24-1=62 (62Q30)
wk3 += wk2; // 62,62->63Q30
wk1 += wk3 >> 15; // Q30 >> 15 = Q15
wk1 /= 32767L;
wk1 >>= 11; // Q15 >> 7 = Q4
wk1 += ik->b00; // Q4 + 20Q4
// wk1 >>= 4; // 28Q4 -> 24Q0
ret = (QMP6988_S32_t) wk1;
return ret;
}
void QMP6988Component::software_reset_() {
uint8_t ret = 0;
ret = this->write_byte(QMP6988_RESET_REG, 0xe6);
if (ret != i2c::ERROR_OK) {
ESP_LOGE(TAG, "Software Reset (0xe6) failed");
}
delay(10);
this->write_byte(QMP6988_RESET_REG, 0x00);
}
void QMP6988Component::set_power_mode_(uint8_t power_mode) {
uint8_t data;
ESP_LOGD(TAG, "Setting Power mode to: %d", power_mode);
qmp6988_data_.power_mode = power_mode;
this->read_register(QMP6988_CTRLMEAS_REG, &data, 1);
data = data & 0xfc;
if (power_mode == QMP6988_SLEEP_MODE) {
data |= 0x00;
} else if (power_mode == QMP6988_FORCED_MODE) {
data |= 0x01;
} else if (power_mode == QMP6988_NORMAL_MODE) {
data |= 0x03;
}
this->write_byte(QMP6988_CTRLMEAS_REG, data);
ESP_LOGD(TAG, "Set Power mode 0xf4=0x%x \r\n", data);
delay(10);
}
void QMP6988Component::write_filter_(unsigned char filter) {
uint8_t data;
data = (filter & 0x03);
this->write_byte(QMP6988_CONFIG_REG, data);
delay(10);
}
void QMP6988Component::write_oversampling_pressure_(unsigned char oversampling_p) {
uint8_t data;
this->read_register(QMP6988_CTRLMEAS_REG, &data, 1);
data &= 0xe3;
data |= (oversampling_p << 2);
this->write_byte(QMP6988_CTRLMEAS_REG, data);
delay(10);
}
void QMP6988Component::write_oversampling_temperature_(unsigned char oversampling_t) {
uint8_t data;
this->read_register(QMP6988_CTRLMEAS_REG, &data, 1);
data &= 0x1f;
data |= (oversampling_t << 5);
this->write_byte(QMP6988_CTRLMEAS_REG, data);
delay(10);
}
void QMP6988Component::set_temperature_oversampling(QMP6988Oversampling oversampling_t) {
this->temperature_oversampling_ = oversampling_t;
}
void QMP6988Component::set_pressure_oversampling(QMP6988Oversampling oversampling_p) {
this->pressure_oversampling_ = oversampling_p;
}
void QMP6988Component::set_iir_filter(QMP6988IIRFilter iirfilter) { this->iir_filter_ = iirfilter; }
void QMP6988Component::calculate_altitude_(float pressure, float temp) {
float altitude;
altitude = (pow((101325 / pressure), 1 / 5.257) - 1) * (temp + 273.15) / 0.0065;
this->qmp6988_data_.altitude = altitude;
}
void QMP6988Component::calculate_pressure_() {
uint8_t err = 0;
QMP6988_U32_t p_read, t_read;
QMP6988_S32_t p_raw, t_raw;
uint8_t a_data_uint8_tr[6] = {0};
QMP6988_S32_t t_int, p_int;
this->qmp6988_data_.temperature = 0;
this->qmp6988_data_.pressure = 0;
err = this->read_register(QMP6988_PRESSURE_MSB_REG, a_data_uint8_tr, 6);
if (err != i2c::ERROR_OK) {
ESP_LOGE(TAG, "Error reading raw pressure/temp values");
return;
}
p_read = (QMP6988_U32_t)((((QMP6988_U32_t)(a_data_uint8_tr[0])) << SHIFT_LEFT_16_POSITION) |
(((QMP6988_U16_t)(a_data_uint8_tr[1])) << SHIFT_LEFT_8_POSITION) | (a_data_uint8_tr[2]));
p_raw = (QMP6988_S32_t)(p_read - SUBTRACTOR);
t_read = (QMP6988_U32_t)((((QMP6988_U32_t)(a_data_uint8_tr[3])) << SHIFT_LEFT_16_POSITION) |
(((QMP6988_U16_t)(a_data_uint8_tr[4])) << SHIFT_LEFT_8_POSITION) | (a_data_uint8_tr[5]));
t_raw = (QMP6988_S32_t)(t_read - SUBTRACTOR);
t_int = this->get_compensated_temperature_(&(qmp6988_data_.ik), t_raw);
p_int = this->get_compensated_pressure_(&(qmp6988_data_.ik), p_raw, t_int);
this->qmp6988_data_.temperature = (float) t_int / 256.0f;
this->qmp6988_data_.pressure = (float) p_int / 16.0f;
}
void QMP6988Component::setup() {
ESP_LOGCONFIG(TAG, "Setting up QMP6988");
bool ret;
ret = this->device_check_();
if (!ret) {
ESP_LOGCONFIG(TAG, "Setup failed - device not found");
}
this->software_reset_();
this->get_calibration_data_();
this->set_power_mode_(QMP6988_NORMAL_MODE);
this->write_filter_(iir_filter_);
this->write_oversampling_pressure_(this->pressure_oversampling_);
this->write_oversampling_temperature_(this->temperature_oversampling_);
}
void QMP6988Component::dump_config() {
ESP_LOGCONFIG(TAG, "QMP6988:");
LOG_I2C_DEVICE(this);
if (this->is_failed()) {
ESP_LOGE(TAG, "Communication with QMP6988 failed!");
}
LOG_UPDATE_INTERVAL(this);
LOG_SENSOR(" ", "Temperature", this->temperature_sensor_);
ESP_LOGCONFIG(TAG, " Temperature Oversampling: %s", oversampling_to_str(this->temperature_oversampling_));
LOG_SENSOR(" ", "Pressure", this->pressure_sensor_);
ESP_LOGCONFIG(TAG, " Pressure Oversampling: %s", oversampling_to_str(this->pressure_oversampling_));
ESP_LOGCONFIG(TAG, " IIR Filter: %s", iir_filter_to_str(this->iir_filter_));
}
float QMP6988Component::get_setup_priority() const { return setup_priority::DATA; }
void QMP6988Component::update() {
this->calculate_pressure_();
float pressurehectopascals = this->qmp6988_data_.pressure / 100;
float temperature = this->qmp6988_data_.temperature;
ESP_LOGD(TAG, "Temperature=%.2f°C, Pressure=%.2fhPa", temperature, pressurehectopascals);
if (this->temperature_sensor_ != nullptr)
this->temperature_sensor_->publish_state(temperature);
if (this->pressure_sensor_ != nullptr)
this->pressure_sensor_->publish_state(pressurehectopascals);
}
} // namespace qmp6988
} // namespace esphome

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esphome/components/qmp6988/qmp6988.h Normal file
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#pragma once
#include "esphome/core/log.h"
#include "esphome/core/component.h"
#include "esphome/core/hal.h"
#include "esphome/core/helpers.h"
#include "esphome/components/sensor/sensor.h"
#include "esphome/components/i2c/i2c.h"
namespace esphome {
namespace qmp6988 {
#define QMP6988_U16_t unsigned short
#define QMP6988_S16_t short
#define QMP6988_U32_t unsigned int
#define QMP6988_S32_t int
#define QMP6988_U64_t unsigned long long
#define QMP6988_S64_t long long
/* oversampling */
enum QMP6988Oversampling {
QMP6988_OVERSAMPLING_SKIPPED = 0x00,
QMP6988_OVERSAMPLING_1X = 0x01,
QMP6988_OVERSAMPLING_2X = 0x02,
QMP6988_OVERSAMPLING_4X = 0x03,
QMP6988_OVERSAMPLING_8X = 0x04,
QMP6988_OVERSAMPLING_16X = 0x05,
QMP6988_OVERSAMPLING_32X = 0x06,
QMP6988_OVERSAMPLING_64X = 0x07,
};
/* filter */
enum QMP6988IIRFilter {
QMP6988_IIR_FILTER_OFF = 0x00,
QMP6988_IIR_FILTER_2X = 0x01,
QMP6988_IIR_FILTER_4X = 0x02,
QMP6988_IIR_FILTER_8X = 0x03,
QMP6988_IIR_FILTER_16X = 0x04,
QMP6988_IIR_FILTER_32X = 0x05,
};
using qmp6988_cali_data_t = struct Qmp6988CaliData {
QMP6988_S32_t COE_a0;
QMP6988_S16_t COE_a1;
QMP6988_S16_t COE_a2;
QMP6988_S32_t COE_b00;
QMP6988_S16_t COE_bt1;
QMP6988_S16_t COE_bt2;
QMP6988_S16_t COE_bp1;
QMP6988_S16_t COE_b11;
QMP6988_S16_t COE_bp2;
QMP6988_S16_t COE_b12;
QMP6988_S16_t COE_b21;
QMP6988_S16_t COE_bp3;
};
using qmp6988_fk_data_t = struct Qmp6988FkData {
float a0, b00;
float a1, a2, bt1, bt2, bp1, b11, bp2, b12, b21, bp3;
};
using qmp6988_ik_data_t = struct Qmp6988IkData {
QMP6988_S32_t a0, b00;
QMP6988_S32_t a1, a2;
QMP6988_S64_t bt1, bt2, bp1, b11, bp2, b12, b21, bp3;
};
using qmp6988_data_t = struct Qmp6988Data {
uint8_t chip_id;
uint8_t power_mode;
float temperature;
float pressure;
float altitude;
qmp6988_cali_data_t qmp6988_cali;
qmp6988_ik_data_t ik;
};
class QMP6988Component : public PollingComponent, public i2c::I2CDevice {
public:
void set_temperature_sensor(sensor::Sensor *temperature_sensor) { temperature_sensor_ = temperature_sensor; }
void set_pressure_sensor(sensor::Sensor *pressure_sensor) { pressure_sensor_ = pressure_sensor; }
void setup() override;
void dump_config() override;
float get_setup_priority() const override;
void update() override;
void set_iir_filter(QMP6988IIRFilter iirfilter);
void set_temperature_oversampling(QMP6988Oversampling oversampling_t);
void set_pressure_oversampling(QMP6988Oversampling oversampling_p);
protected:
qmp6988_data_t qmp6988_data_;
sensor::Sensor *temperature_sensor_;
sensor::Sensor *pressure_sensor_;
QMP6988Oversampling temperature_oversampling_{QMP6988_OVERSAMPLING_16X};
QMP6988Oversampling pressure_oversampling_{QMP6988_OVERSAMPLING_16X};
QMP6988IIRFilter iir_filter_{QMP6988_IIR_FILTER_OFF};
void software_reset_();
bool get_calibration_data_();
bool device_check_();
void set_power_mode_(uint8_t power_mode);
void write_oversampling_temperature_(unsigned char oversampling_t);
void write_oversampling_pressure_(unsigned char oversampling_p);
void write_filter_(unsigned char filter);
void calculate_pressure_();
void calculate_altitude_(float pressure, float temp);
QMP6988_S32_t get_compensated_pressure_(qmp6988_ik_data_t *ik, QMP6988_S32_t dp, QMP6988_S16_t tx);
QMP6988_S16_t get_compensated_temperature_(qmp6988_ik_data_t *ik, QMP6988_S32_t dt);
};
} // namespace qmp6988
} // namespace esphome

101
esphome/components/qmp6988/sensor.py Normal file
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@@ -0,0 +1,101 @@
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import i2c, sensor
from esphome.const import (
CONF_ID,
CONF_PRESSURE,
CONF_TEMPERATURE,
DEVICE_CLASS_PRESSURE,
DEVICE_CLASS_TEMPERATURE,
STATE_CLASS_MEASUREMENT,
UNIT_CELSIUS,
UNIT_HECTOPASCAL,
CONF_IIR_FILTER,
CONF_OVERSAMPLING,
)
DEPENDENCIES = ["i2c"]
qmp6988_ns = cg.esphome_ns.namespace("qmp6988")
QMP6988Component = qmp6988_ns.class_(
"QMP6988Component", cg.PollingComponent, i2c.I2CDevice
)
QMP6988Oversampling = qmp6988_ns.enum("QMP6988Oversampling")
OVERSAMPLING_OPTIONS = {
"NONE": QMP6988Oversampling.QMP6988_OVERSAMPLING_SKIPPED,
"1X": QMP6988Oversampling.QMP6988_OVERSAMPLING_1X,
"2X": QMP6988Oversampling.QMP6988_OVERSAMPLING_2X,
"4X": QMP6988Oversampling.QMP6988_OVERSAMPLING_4X,
"8X": QMP6988Oversampling.QMP6988_OVERSAMPLING_8X,
"16X": QMP6988Oversampling.QMP6988_OVERSAMPLING_16X,
"32X": QMP6988Oversampling.QMP6988_OVERSAMPLING_32X,
"64X": QMP6988Oversampling.QMP6988_OVERSAMPLING_64X,
}
QMP6988IIRFilter = qmp6988_ns.enum("QMP6988IIRFilter")
IIR_FILTER_OPTIONS = {
"OFF": QMP6988IIRFilter.QMP6988_IIR_FILTER_OFF,
"2X": QMP6988IIRFilter.QMP6988_IIR_FILTER_2X,
"4X": QMP6988IIRFilter.QMP6988_IIR_FILTER_4X,
"8X": QMP6988IIRFilter.QMP6988_IIR_FILTER_8X,
"16X": QMP6988IIRFilter.QMP6988_IIR_FILTER_16X,
"32X": QMP6988IIRFilter.QMP6988_IIR_FILTER_32X,
}
CONFIG_SCHEMA = (
cv.Schema(
{
cv.GenerateID(): cv.declare_id(QMP6988Component),
cv.Optional(CONF_TEMPERATURE): sensor.sensor_schema(
unit_of_measurement=UNIT_CELSIUS,
accuracy_decimals=1,
device_class=DEVICE_CLASS_TEMPERATURE,
state_class=STATE_CLASS_MEASUREMENT,
).extend(
{
cv.Optional(CONF_OVERSAMPLING, default="8X"): cv.enum(
OVERSAMPLING_OPTIONS, upper=True
),
}
),
cv.Optional(CONF_PRESSURE): sensor.sensor_schema(
unit_of_measurement=UNIT_HECTOPASCAL,
accuracy_decimals=1,
device_class=DEVICE_CLASS_PRESSURE,
state_class=STATE_CLASS_MEASUREMENT,
).extend(
{
cv.Optional(CONF_OVERSAMPLING, default="8X"): cv.enum(
OVERSAMPLING_OPTIONS, upper=True
),
}
),
cv.Optional(CONF_IIR_FILTER, default="OFF"): cv.enum(
IIR_FILTER_OPTIONS, upper=True
),
}
)
.extend(cv.polling_component_schema("60s"))
.extend(i2c.i2c_device_schema(0x70))
)
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 CONF_TEMPERATURE in config:
conf = config[CONF_TEMPERATURE]
sens = await sensor.new_sensor(conf)
cg.add(var.set_temperature_sensor(sens))
cg.add(var.set_temperature_oversampling(conf[CONF_OVERSAMPLING]))
if CONF_PRESSURE in config:
conf = config[CONF_PRESSURE]
sens = await sensor.new_sensor(conf)
cg.add(var.set_pressure_sensor(sens))
cg.add(var.set_pressure_oversampling(conf[CONF_OVERSAMPLING]))
cg.add(var.set_iir_filter(config[CONF_IIR_FILTER]))

11
tests/test1.yaml
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@@ -798,6 +798,17 @@ sensor:
value: 12345
total:
name: "Pulse Meter Total"
- platform: qmp6988
temperature:
name: "Living Temperature QMP"
oversampling: 32x
pressure:
name: "Living Pressure QMP"
oversampling: 2x
address: 0x70
update_interval: 30s
iir_filter: 16x
i2c_id: i2c_bus
- platform: rotary_encoder
name: "Rotary Encoder"
id: rotary_encoder1