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_P030_BMP280.ino
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_P030_BMP280.ino
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//#######################################################################################################
//#################### Plugin 030 BMP280 I2C Temp/Barometric Pressure Sensor #######################
//#######################################################################################################
#define PLUGIN_030
#define PLUGIN_ID_030 30
#define PLUGIN_NAME_030 "Temperature & Pressure - BMP280"
#define PLUGIN_VALUENAME1_030 "Temperature"
#define PLUGIN_VALUENAME2_030 "Pressure"
enum
{
BMP280_REGISTER_DIG_T1 = 0x88,
BMP280_REGISTER_DIG_T2 = 0x8A,
BMP280_REGISTER_DIG_T3 = 0x8C,
BMP280_REGISTER_DIG_P1 = 0x8E,
BMP280_REGISTER_DIG_P2 = 0x90,
BMP280_REGISTER_DIG_P3 = 0x92,
BMP280_REGISTER_DIG_P4 = 0x94,
BMP280_REGISTER_DIG_P5 = 0x96,
BMP280_REGISTER_DIG_P6 = 0x98,
BMP280_REGISTER_DIG_P7 = 0x9A,
BMP280_REGISTER_DIG_P8 = 0x9C,
BMP280_REGISTER_DIG_P9 = 0x9E,
BMP280_REGISTER_CHIPID = 0xD0,
BMP280_REGISTER_VERSION = 0xD1,
BMP280_REGISTER_SOFTRESET = 0xE0,
BMP280_REGISTER_CAL26 = 0xE1, // R calibration stored in 0xE1-0xF0
BMP280_REGISTER_CONTROL = 0xF4,
BMP280_REGISTER_CONFIG = 0xF5,
BMP280_REGISTER_PRESSUREDATA = 0xF7,
BMP280_REGISTER_TEMPDATA = 0xFA,
BMP280_CONTROL_SETTING = 0x57, // Oversampling: 16x P, 2x T, normal mode
};
typedef struct
{
uint16_t dig_T1;
int16_t dig_T2;
int16_t dig_T3;
uint16_t dig_P1;
int16_t dig_P2;
int16_t dig_P3;
int16_t dig_P4;
int16_t dig_P5;
int16_t dig_P6;
int16_t dig_P7;
int16_t dig_P8;
int16_t dig_P9;
} bmp280_calib_data;
bmp280_calib_data _bmp280_calib[2];
uint8_t bmp280_i2caddr;
int32_t bmp280_sensorID;
int32_t bmp280_t_fine;
uint8_t Plugin_030_read8(byte reg, bool * is_ok = NULL); // Declaration
boolean Plugin_030_init[2] = {false, false};
boolean Plugin_030(byte function, struct EventStruct *event, String& string)
{
boolean success = false;
switch (function)
{
case PLUGIN_DEVICE_ADD:
{
Device[++deviceCount].Number = PLUGIN_ID_030;
Device[deviceCount].Type = DEVICE_TYPE_I2C;
Device[deviceCount].VType = SENSOR_TYPE_TEMP_BARO;
Device[deviceCount].Ports = 0;
Device[deviceCount].PullUpOption = false;
Device[deviceCount].InverseLogicOption = false;
Device[deviceCount].FormulaOption = true;
Device[deviceCount].ValueCount = 2;
Device[deviceCount].SendDataOption = true;
Device[deviceCount].TimerOption = true;
Device[deviceCount].GlobalSyncOption = true;
break;
}
case PLUGIN_GET_DEVICENAME:
{
string = F(PLUGIN_NAME_030);
break;
}
case PLUGIN_GET_DEVICEVALUENAMES:
{
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[0], PSTR(PLUGIN_VALUENAME1_030));
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[1], PSTR(PLUGIN_VALUENAME2_030));
break;
}
case PLUGIN_WEBFORM_LOAD:
{
byte choice = Settings.TaskDevicePluginConfig[event->TaskIndex][0];
String options[2];
options[0] = F("0x76 - default settings (SDO Low)");
options[1] = F("0x77 - alternate settings (SDO HIGH)");
int optionValues[2];
optionValues[0] = 0x76;
optionValues[1] = 0x77;
string += F("<TR><TD>I2C Address:<TD><select name='plugin_030_bmp280_i2c'>");
for (byte x = 0; x < 2; x++)
{
string += F("<option value='");
string += optionValues[x];
string += "'";
if (choice == optionValues[x])
string += F(" selected");
string += ">";
string += options[x];
string += F("</option>");
}
string += F("</select>");
string += F("<TR><TD>Altitude [m]:<TD><input type='text' title='Set Altitude to 0 to get measurement without altitude adjustment' name='");
string += F("plugin_030_bmp280_elev' value='");
string += Settings.TaskDevicePluginConfig[event->TaskIndex][1];
string += F("'>");
success = true;
break;
}
case PLUGIN_WEBFORM_SAVE:
{
String plugin1 = WebServer.arg("plugin_030_bmp280_i2c");
Settings.TaskDevicePluginConfig[event->TaskIndex][0] = plugin1.toInt();
String elev = WebServer.arg("plugin_030_bmp280_elev");
Settings.TaskDevicePluginConfig[event->TaskIndex][1] = elev.toInt();
success = true;
break;
}
case PLUGIN_READ:
{
uint8_t idx = Settings.TaskDevicePluginConfig[event->TaskIndex][0] & 0x1; //Addresses are 0x76 and 0x77 so we may use it this way
Plugin_030_init[idx] &= Plugin_030_check(Settings.TaskDevicePluginConfig[event->TaskIndex][0]); // Check id device is present
Plugin_030_init[idx] &= (Plugin_030_read8(BMP280_REGISTER_CONTROL) == BMP280_CONTROL_SETTING); // Check if the coefficients are still valid
if (!Plugin_030_init[idx])
{
Plugin_030_init[idx] = Plugin_030_begin(Settings.TaskDevicePluginConfig[event->TaskIndex][0]);
delay(65); // Ultra high resolution for BMP280 is 43.2 ms, add some extra time
}
if (Plugin_030_init[idx])
{
UserVar[event->BaseVarIndex] = Plugin_030_readTemperature(idx);
int elev = Settings.TaskDevicePluginConfig[event->TaskIndex][1];
if (elev)
{
UserVar[event->BaseVarIndex + 1] = Plugin_030_pressureElevation((float)Plugin_030_readPressure(idx) / 100, elev);
} else {
UserVar[event->BaseVarIndex + 1] = ((float)Plugin_030_readPressure(idx)) / 100;
}
String log = F("BMP280 : Address: 0x");
log += String(bmp280_i2caddr,HEX);
addLog(LOG_LEVEL_INFO, log);
log = F("BMP280 : Temperature: ");
log += UserVar[event->BaseVarIndex];
addLog(LOG_LEVEL_INFO, log);
log = F("BMP280 : Barometric Pressure: ");
log += UserVar[event->BaseVarIndex + 1];
addLog(LOG_LEVEL_INFO, log);
/*
log = F("BMP280 : Coefficients [T]: ");
log += _bmp280_calib[idx].dig_T1;
log += ", ";
log += _bmp280_calib[idx].dig_T2;
log += ", ";
log += _bmp280_calib[idx].dig_T3;
addLog(LOG_LEVEL_INFO, log);
log = F("BMP280 : Coefficients [P]: ");
log += _bmp280_calib[idx].dig_P1;
log += ", ";
log += _bmp280_calib[idx].dig_P2;
log += ", ";
log += _bmp280_calib[idx].dig_P3;
log += ", ";
log += _bmp280_calib[idx].dig_P4;
log += ", ";
log += _bmp280_calib[idx].dig_P5;
log += ", ";
log += _bmp280_calib[idx].dig_P6;
log += ", ";
log += _bmp280_calib[idx].dig_P7;
log += ", ";
log += _bmp280_calib[idx].dig_P8;
log += ", ";
log += _bmp280_calib[idx].dig_P9;
addLog(LOG_LEVEL_INFO, log);
*/
success = true;
}
break;
}
}
return success;
}
//**************************************************************************/
// Check BMP280 presence
//**************************************************************************/
bool Plugin_030_check(uint8_t a) {
bmp280_i2caddr = a?a:0x76;
bool wire_status = false;
if (Plugin_030_read8(BMP280_REGISTER_CHIPID, &wire_status) != 0x58) {
return false;
} else {
return wire_status;
}
}
//**************************************************************************/
// Initialize BMP280
//**************************************************************************/
bool Plugin_030_begin(uint8_t a) {
if (! Plugin_030_check(a))
return false;
Plugin_030_readCoefficients(a & 0x1);
Plugin_030_write8(BMP280_REGISTER_CONTROL, BMP280_CONTROL_SETTING);
return true;
}
//**************************************************************************/
// Writes an 8 bit value over I2C/SPI
//**************************************************************************/
void Plugin_030_write8(byte reg, byte value)
{
Wire.beginTransmission((uint8_t)bmp280_i2caddr);
Wire.write((uint8_t)reg);
Wire.write((uint8_t)value);
Wire.endTransmission();
}
//**************************************************************************/
// Reads an 8 bit value over I2C
//**************************************************************************/
uint8_t Plugin_030_read8(byte reg, bool * is_ok)
{
uint8_t value;
Wire.beginTransmission((uint8_t)bmp280_i2caddr);
Wire.write((uint8_t)reg);
Wire.endTransmission();
byte count = Wire.requestFrom((uint8_t)bmp280_i2caddr, (byte)1);
if (is_ok != NULL) { *is_ok = (count == 1); }
value = Wire.read();
Wire.endTransmission();
return value;
}
//**************************************************************************/
// Reads a 16 bit value over I2C
//**************************************************************************/
uint16_t Plugin_030_read16(byte reg)
{
uint16_t value;
Wire.beginTransmission((uint8_t)bmp280_i2caddr);
Wire.write((uint8_t)reg);
Wire.endTransmission();
Wire.requestFrom((uint8_t)bmp280_i2caddr, (byte)2);
value = (Wire.read() << 8) | Wire.read();
Wire.endTransmission();
return value;
}
//**************************************************************************/
// Reads a 24 bit value over I2C
//**************************************************************************/
int32_t Plugin_030_read24(byte reg)
{
int32_t value;
Wire.beginTransmission((uint8_t)bmp280_i2caddr);
Wire.write((uint8_t)reg);
Wire.endTransmission();
Wire.requestFrom((uint8_t)bmp280_i2caddr, (byte)3);
value = (((int32_t)Wire.read()) << 16) | (Wire.read() << 8) | Wire.read();
Wire.endTransmission();
return value;
}
//**************************************************************************/
// Reads a 16 bit value over I2C
//**************************************************************************/
uint16_t Plugin_030_read16_LE(byte reg) {
uint16_t temp = Plugin_030_read16(reg);
return (temp >> 8) | (temp << 8);
}
//**************************************************************************/
// Reads a signed 16 bit value over I2C
//**************************************************************************/
int16_t Plugin_030_readS16(byte reg)
{
return (int16_t)Plugin_030_read16(reg);
}
int16_t Plugin_030_readS16_LE(byte reg)
{
return (int16_t)Plugin_030_read16_LE(reg);
}
//**************************************************************************/
// Reads the factory-set coefficients
//**************************************************************************/
void Plugin_030_readCoefficients(uint8_t idx)
{
_bmp280_calib[idx].dig_T1 = Plugin_030_read16_LE(BMP280_REGISTER_DIG_T1);
_bmp280_calib[idx].dig_T2 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_T2);
_bmp280_calib[idx].dig_T3 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_T3);
_bmp280_calib[idx].dig_P1 = Plugin_030_read16_LE(BMP280_REGISTER_DIG_P1);
_bmp280_calib[idx].dig_P2 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P2);
_bmp280_calib[idx].dig_P3 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P3);
_bmp280_calib[idx].dig_P4 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P4);
_bmp280_calib[idx].dig_P5 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P5);
_bmp280_calib[idx].dig_P6 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P6);
_bmp280_calib[idx].dig_P7 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P7);
_bmp280_calib[idx].dig_P8 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P8);
_bmp280_calib[idx].dig_P9 = Plugin_030_readS16_LE(BMP280_REGISTER_DIG_P9);
}
//**************************************************************************/
// Read temperature
//**************************************************************************/
float Plugin_030_readTemperature(uint8_t idx)
{
int32_t var1, var2;
int32_t adc_T = Plugin_030_read24(BMP280_REGISTER_TEMPDATA);
adc_T >>= 4;
var1 = ((((adc_T >> 3) - ((int32_t)_bmp280_calib[idx].dig_T1 << 1))) *
((int32_t)_bmp280_calib[idx].dig_T2)) >> 11;
var2 = (((((adc_T >> 4) - ((int32_t)_bmp280_calib[idx].dig_T1)) *
((adc_T >> 4) - ((int32_t)_bmp280_calib[idx].dig_T1))) >> 12) *
((int32_t)_bmp280_calib[idx].dig_T3)) >> 14;
bmp280_t_fine = var1 + var2;
float T = (bmp280_t_fine * 5 + 128) >> 8;
return T / 100;
}
//**************************************************************************/
// Read pressure
//**************************************************************************/
float Plugin_030_readPressure(uint8_t idx) {
int64_t var1, var2, p;
int32_t adc_P = Plugin_030_read24(BMP280_REGISTER_PRESSUREDATA);
adc_P >>= 4;
var1 = ((int64_t)bmp280_t_fine) - 128000;
var2 = var1 * var1 * (int64_t)_bmp280_calib[idx].dig_P6;
var2 = var2 + ((var1 * (int64_t)_bmp280_calib[idx].dig_P5) << 17);
var2 = var2 + (((int64_t)_bmp280_calib[idx].dig_P4) << 35);
var1 = ((var1 * var1 * (int64_t)_bmp280_calib[idx].dig_P3) >> 8) +
((var1 * (int64_t)_bmp280_calib[idx].dig_P2) << 12);
var1 = (((((int64_t)1) << 47) + var1)) * ((int64_t)_bmp280_calib[idx].dig_P1) >> 33;
if (var1 == 0) {
return 0; // avoid exception caused by division by zero
}
p = 1048576 - adc_P;
p = (((p << 31) - var2) * 3125) / var1;
var1 = (((int64_t)_bmp280_calib[idx].dig_P9) * (p >> 13) * (p >> 13)) >> 25;
var2 = (((int64_t)_bmp280_calib[idx].dig_P8) * p) >> 19;
p = ((p + var1 + var2) >> 8) + (((int64_t)_bmp280_calib[idx].dig_P7) << 4);
return (float)p / 256;
}
//**************************************************************************/
// Calculates the altitude (in meters) from the specified atmospheric
// pressure (in hPa), and sea-level pressure (in hPa).
// @param seaLevel Sea-level pressure in hPa
// @param atmospheric Atmospheric pressure in hPa
//**************************************************************************/
float Plugin_030_readAltitude(float seaLevel)
{
float atmospheric = Plugin_030_readPressure(bmp280_i2caddr & 0x01) / 100.0F;
return 44330.0 * (1.0 - pow(atmospheric / seaLevel, 0.1903));
}
//**************************************************************************/
// MSL pressure formula
//**************************************************************************/
float Plugin_030_pressureElevation(float atmospheric, int altitude) {
return atmospheric / pow(1.0 - (altitude/44330.0), 5.255);
}