137 lines
4.9 KiB
C++
137 lines
4.9 KiB
C++
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//******************************************************************************************
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// File: PS_10kThermistor.cpp
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// Authors: D. Johnson (_M2) based on the work of Dan G Ogorchock & Daniel J Ogorchock (Father and Son)
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//
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// Summary: PS_10kThermistor is a class which implements the Hubitat "Temperature Measurement" device capability.
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// It inherits from the st::PollingSensor class. The current version uses an analog input to measure the
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// value of a simple thermal resistor using another 10k resistor as a voltage divider.
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//
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// The last four arguments of the constructor are used as arguments to configure the resistance of the parts.
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// The first number is the resistance of the thermistor. Second is R1. Third is the thermistor coefficient. Last is your preference of units.
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// Create an instance of this class in your sketch's global variable section
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// For Example: st::PS_10kThermistor sensor1(F("temperature1"), 120, 0, PIN_THERMISTOR, 10000, 10000, 3300, "F");
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//
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// st::PS_10kThermistor() constructor requires the following arguments
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// - String &name - REQUIRED - the name of the object - must match the Groovy ST_Anything DeviceType tile name
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// - long interval - REQUIRED - the polling interval in seconds
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// - long offset - REQUIRED - the polling interval offset in seconds - used to prevent all polling sensors from executing at the same time
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// - byte pin - REQUIRED - the Arduino Pin to be used as a digital output
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// - int tl - OPTIONAL - resistance of the thermocouple at the nominal temperature (usually 25C, 77F)
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// - int r1 - OPTIONAL - actual measured resistance of the voltage divider resistor
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// - int BCOEFF - OPTIONAL - The beta coefficient of the thermistor (usually 3000-4000). Tweak this number to calibrate.
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// - int tempNOM - OPTIONAL - The nominal temperature of the thermistor @10k (usually 25C, 77F).
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// - int unit - OPTIONAL - Use the letter F for Farhenheit, C for Celsius
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//
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//
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// TODO: Determine a method to persist the ST Cloud's Polling Interval data
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//
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// Change History:
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//
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// Date Who What
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// ---- --- ----
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// 2015-01-03 Dan & Daniel Original Creation
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// 2017-08-30 Dan Ogorchock Modified comment section above to comply with new Parent/Child Device Handler requirements
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// 2019-12-23 D. Johnson Created 10k_Thermistor using PS_Illuminance as example
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//
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//******************************************************************************************
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#include "PS_10kThermistor.h"
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#include "Constants.h"
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#include "Everything.h"
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namespace st
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{
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//private
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//public
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//constructor - called in your sketch's global variable declaration section
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PS_10kThermistor::PS_10kThermistor(const __FlashStringHelper *name, unsigned int interval, int offset, byte analogInputPin, int t1, int r1, int BCOEFF, int tempNom, char unit):
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PollingSensor(name, interval, offset),
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m_nSensorValue(0),
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thermResistance(t1),
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r1Resistance(r1),
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BetaCoeff(BCOEFF),
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UNIT(unit),
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TEMPNOMINAL(tempNom)
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{
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setPin(analogInputPin);
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}
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//destructor
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PS_10kThermistor::~PS_10kThermistor()
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{
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}
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//SmartThings Shield data handler (receives configuration data from ST - polling interval, and adjusts on the fly)
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void PS_10kThermistor::beSmart(const String &str)
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{
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String s = str.substring(str.indexOf(' ') + 1);
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if (s.toInt() != 0) {
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st::PollingSensor::setInterval(s.toInt() * 1000);
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if (st::PollingSensor::debug) {
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Serial.print(F("PS_10kThermistor::beSmart set polling interval to "));
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Serial.println(s.toInt());
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}
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}
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else {
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if (st::PollingSensor::debug)
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{
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Serial.print(F("PS_10kThermistor::beSmart cannot convert "));
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Serial.print(s);
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Serial.println(F(" to an Integer."));
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}
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}
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}
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//function to get data from sensor and queue results for transfer to ST Cloud
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void PS_10kThermistor::getData()
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{
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int NUMSAMPLES = 10;
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float samples[NUMSAMPLES];
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for (int i=0; i< NUMSAMPLES; i++)
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{
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samples[i] = analogRead(m_nAnalogInputPin);
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}
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// average all the samples out
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float average = 0;
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for (int i=0; i< NUMSAMPLES; i++)
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{
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average += samples[i];
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}
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average /= NUMSAMPLES;
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// convert the value to resistance
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average = 1023 / average - 1;
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average = r1Resistance / average;
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float reading;
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float Temp1F;
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float Temp1C;
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reading = average / thermResistance; // (R/Ro)
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reading = log(reading); // ln(R/Ro)
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reading /= BetaCoeff; // 1/B * ln(R/Ro)
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reading += 1.0 / (TEMPNOMINAL + 273.15); // + (1/To)
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reading = 1.0 / reading; // Invert
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Temp1C = reading -= 273.15; // convert to C
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Temp1F = (Temp1C * 1.8) + 32; // convert to F
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if(UNIT == 'F'){
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m_nSensorValue = Temp1F;
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}
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else {
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m_nSensorValue = Temp1C;
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}
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Everything::sendSmartString(getName() + " " + String(m_nSensorValue));
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}
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void PS_10kThermistor::setPin(byte pin)
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{
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m_nAnalogInputPin = pin;
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}
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}
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