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_P178_SCD30.ino
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_P178_SCD30.ino
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//#######################################################################################################
//############ Plugin 178 SCD30 I2C CO2, Humidity and Temperature Sensor ################################
//#######################################################################################################
// development version
// by: V0JT4
// this plugin is based on the Frogmore42 library
// written based code from https://github.com/Frogmore42/Sonoff-Tasmota/tree/development/lib/FrogmoreScd30
// Commands:
// SCDGETABC - shows automatic calibration period in days, 0 = disable
// SCDGETALT - shows altitude compensation configuration in meters above sea level
// SCDGETTMP - hows temperature offset in C
#define PLUGIN_178
#define PLUGIN_ID_178 178
#define PLUGIN_NAME_178 "Gases - CO2 SCD30"
#define PLUGIN_VALUENAME1_178 "CO2"
#define PLUGIN_VALUENAME2_178 "Humidity"
#define PLUGIN_VALUENAME3_178 "Temperature"
#define PLUGIN_VALUENAME4_178 "CO2raw"
#include "FrogmoreScd30.h"
boolean Plugin_178_init = false;
FrogmoreScd30 scd30;
boolean plugin_178_begin()
{
if (!Plugin_178_init)
{
//Wire.begin(); called in ESPEasy framework
scd30.begin();
uint16_t calibration = 0;
scd30.getCalibrationType(&calibration);
if (calibration)
{
scd30.setManualCalibration();
}
scd30.beginMeasuring();
Plugin_178_init = true;
}
return(true);
}
boolean Plugin_178(byte function, struct EventStruct *event, String& string)
{
boolean success = false;
switch (function)
{
case PLUGIN_DEVICE_ADD:
{
Device[++deviceCount].Number = PLUGIN_ID_178;
Device[deviceCount].Type = DEVICE_TYPE_I2C;
Device[deviceCount].VType = SENSOR_TYPE_QUAD;
Device[deviceCount].Ports = 0;
Device[deviceCount].PullUpOption = false;
Device[deviceCount].InverseLogicOption = false;
Device[deviceCount].FormulaOption = true;
Device[deviceCount].ValueCount = 4;
Device[deviceCount].SendDataOption = true;
Device[deviceCount].TimerOption = true;
Device[deviceCount].GlobalSyncOption = true;
break;
}
case PLUGIN_GET_DEVICENAME:
{
string = F(PLUGIN_NAME_178);
break;
}
case PLUGIN_GET_DEVICEVALUENAMES:
{
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[0], PSTR(PLUGIN_VALUENAME1_178));
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[1], PSTR(PLUGIN_VALUENAME2_178));
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[2], PSTR(PLUGIN_VALUENAME3_178));
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[3], PSTR(PLUGIN_VALUENAME4_178));
break;
}
case PLUGIN_WEBFORM_LOAD:
{
addFormNumericBox(F("Altitude"), F("plugin_178_SCD30_alt"), Settings.TaskDevicePluginConfig[event->TaskIndex][0]);
addUnit(F("m"));
addFormTextBox(F("Temp offset"), F("plugin_178_SCD30_tmp"), String(PCONFIG_FLOAT(0), 2), 5);
addUnit(F("C"));
addHtml(F("<span style=\"color:red\">Tools->Advanced->I2C ClockStretchLimit should be set to 20000</span>"));
success = true;
break;
}
case PLUGIN_WEBFORM_SAVE:
{
uint16_t alt = getFormItemInt(F("plugin_178_SCD30_alt"));
if (alt > 2000) alt = 2000;
Settings.TaskDevicePluginConfig[event->TaskIndex][0] = alt;
PCONFIG_FLOAT(0) = getFormItemFloat(F("plugin_178_SCD30_tmp"));
success = true;
break;
}
case PLUGIN_INIT:
{
plugin_178_begin();
scd30.setAltitudeCompensation(Settings.TaskDevicePluginConfig[event->TaskIndex][0]);
scd30.setTemperatureOffset(PCONFIG_FLOAT(0));
break;
}
case PLUGIN_READ:
{
plugin_178_begin();
uint16_t scd30_CO2 = 0;
uint16_t scd30_CO2EAvg = 0;
float scd30_Humid = 0.0;
float scd30_Temp = 0.0;
switch (scd30.readMeasurement(&scd30_CO2, &scd30_CO2EAvg, &scd30_Temp, &scd30_Humid))
{
case ERROR_SCD30_NO_ERROR:
UserVar[event->BaseVarIndex] = scd30_CO2EAvg;
UserVar[event->BaseVarIndex+1] = scd30_Humid;
UserVar[event->BaseVarIndex+2] = scd30_Temp;
UserVar[event->BaseVarIndex+3] = scd30_CO2;
if (scd30_CO2EAvg > 5000)
{
addLog(LOG_LEVEL_INFO,F("SCD30: Sensor saturated! > 5000 ppm"));
}
break;
case ERROR_SCD30_NO_DATA:
case ERROR_SCD30_CRC_ERROR:
case ERROR_SCD30_CO2_ZERO:
break;
default:
{
scd30.softReset();
}
break;
}
success = true;
break;
}
case PLUGIN_WRITE:
{
uint16_t value = 0;
String log = F("");
float temp;
if (string.equalsIgnoreCase(F("SCDGETABC")))
{
scd30.getCalibrationType(&value);
log += F("ABC: ");
log += value;
} else if (string.equalsIgnoreCase(F("SCDGETALT")))
{
scd30.getAltitudeCompensation(&value);
log += F("Altitude: ");
log += value;
} else if (string.equalsIgnoreCase(F("SCDGETTMP")))
{
scd30.getTemperatureOffset(&temp);
log += F("Temp offset: ");
log += String(temp,2);
} else
{
break;
}
SendStatus(event->Source, log);
success = true;
break;
}
}
return success;
}