//****************************************************************************************** // File: PS_AdafruitSHT31_TempHumid.h // Authors: Dan G Ogorchock & Daniel J Ogorchock (Father and Son) // // Summary: PS_AdafruitSHT31_TempHumid is a class which implements the "Temperature Measurement" // and "Relative Humidity Measurement" device capabilities. // It inherits from the st::PollingSensor class. The current version uses I2C to measure the // temperature and humidity from an SHT31 series sensor using the Adafruit_SHT31 library. // // Create an instance of this class in your sketch's global variable section // For Example: st::PS_AdafruitSHT31_TempHumid sensor1(F("SHT31_1)", 60, 0, "temperature1", "humidity1", false, 100, 0x44); // // st::PS_AdafruitSHT31_TempHumid() constructor requires the following arguments // - String &name - REQUIRED - the name of the object - must be unique, but is not used for data transfer for this device // - long interval - REQUIRED - the polling interval in seconds // - long offset - REQUIRED - the polling interval offset in seconds - used to prevent all polling sensors from executing at the same time // - String strTemp - REQUIRED - name of temperature sensor to send to ST Cloud (e.g."temperature1") // - String strHumid - REQUIRED - name of humidity sensor to send to ST Cloud (e.g. "humidity1") // - bool In_C - OPTIONAL - true = Report Celsius, false = Report Farenheit (Farentheit is the default) // - byte filterConstant - OPTIONAL - Value from 5% to 100% to determine how much filtering/averaging is performed 100 = none (default), 5 = maximum // - int address - OPTIONAL - I2C address of the sensor (defaults to 0x44 for the SHT31) // // Filtering/Averaging // // Filtering the value sent to ST is performed per the following equation // // filteredValue = (filterConstant/100 * currentValue) + ((1 - filterConstant/100) * filteredValue) // // This class supports receiving configuration data from the SmartThings cloud via the ST App. A user preference // can be configured in your phone's ST App, and then the "Configure" tile will send the data for all sensors to // the ST Shield. For PollingSensors, this data is handled in the beSMart() function. // // TODO: Determine a method to persist the ST Cloud's Polling Interval data // // Change History: // // Date Who What // ---- --- ---- // 2019-03-24 Dan Ogorchock Original Creation // //****************************************************************************************** #include "PS_AdafruitSHT31_TempHumid.h" #include "Constants.h" #include "Everything.h" namespace st { //private //public //constructor - called in your sketch's global variable declaration section PS_AdafruitSHT31_TempHumid::PS_AdafruitSHT31_TempHumid(const __FlashStringHelper *name, unsigned int interval, int offset, String strTemp, String strHumid, bool In_C, byte filterConstant, int address) : PollingSensor(name, interval, offset), SHT31(), m_fTemperatureSensorValue(-1.0), m_fHumiditySensorValue(-1.0), m_strTemperature(strTemp), m_strHumidity(strHumid), m_In_C(In_C), m_nAddress(address) { //check for upper and lower limit and adjust accordingly if ((filterConstant <= 0) || (filterConstant >= 100)) { m_fFilterConstant = 1.0; } else if (filterConstant <= 5) { m_fFilterConstant = 0.05; } else { m_fFilterConstant = float(filterConstant) / 100; } } //destructor PS_AdafruitSHT31_TempHumid::~PS_AdafruitSHT31_TempHumid() { } //SmartThings Shield data handler (receives configuration data from ST - polling interval, and adjusts on the fly) void PS_AdafruitSHT31_TempHumid::beSmart(const String &str) { String s = str.substring(str.indexOf(' ') + 1); if (s.toInt() != 0) { st::PollingSensor::setInterval(s.toInt() * 1000); if (st::PollingSensor::debug) { Serial.print(F("PS_AdafruitSHT31_TempHumid::beSmart set polling interval to ")); Serial.println(s.toInt()); } } else { if (st::PollingSensor::debug) { Serial.print(F("PS_AdafruitSHT31_TempHumid::beSmart cannot convert ")); Serial.print(s); Serial.println(F(" to an Integer.")); } } } //initialization routine - get first set of readings and send to ST cloud void PS_AdafruitSHT31_TempHumid::init() { bool status = SHT31.begin(m_nAddress); if (st::PollingSensor::debug) { if (!status) { Serial.println(); Serial.println("Could not find a valid SHT31 sensor, check wiring!"); Serial.println(); delay(3000); } } getData(); } //function to get data from sensor and queue results for transfer to ST Cloud void PS_AdafruitSHT31_TempHumid::getData() { //Humidity if (m_fHumiditySensorValue == -1.0) { Serial.println("First time through Humidity"); m_fHumiditySensorValue = SHT31.readHumidity(); //first time through, no filtering } else { m_fHumiditySensorValue = (m_fFilterConstant * SHT31.readHumidity()) + (1 - m_fFilterConstant) * m_fHumiditySensorValue; } //Temperature if (m_fTemperatureSensorValue == -1.0) { Serial.println("First time through Temperature"); //first time through, no filtering if (m_In_C == false) { m_fTemperatureSensorValue = (SHT31.readTemperature() * 1.8) + 32.0; //Scale from Celsius to Farenheit } else { m_fTemperatureSensorValue = SHT31.readTemperature(); } } else { if (m_In_C == false) { m_fTemperatureSensorValue = (m_fFilterConstant * ((SHT31.readTemperature() * 1.8) + 32.0)) + (1 - m_fFilterConstant) * m_fTemperatureSensorValue; } else { m_fTemperatureSensorValue = (m_fFilterConstant * SHT31.readTemperature()) + (1 - m_fFilterConstant) * m_fTemperatureSensorValue; } } Everything::sendSmartString(m_strTemperature + " " + String(m_fTemperatureSensorValue)); Everything::sendSmartString(m_strHumidity + " " + String(m_fHumiditySensorValue)); } }