Adjusted Arduino library version

Removed old example files

examples/DIY_BASIC/DIY_BASIC.ino

@@ -10,6 +10,7 @@ Kits (including a pre-soldered version) are available: https://www.airgradient.c
 The codes needs the following libraries installed:
 “WifiManager by tzapu, tablatronix” tested with version 2.0.11-beta
 “U8g2” by oliver tested with version 2.32.15
+"Arduino-SHT" by Johannes Winkelmann Version 1.2.2
 
 Configuration:
 Please set in the code below the configuration parameters.
@@ -30,8 +31,10 @@ MIT License
 #include <ESP8266HTTPClient.h>
 #include <WiFiClient.h>
 #include <U8g2lib.h>
+#include "SHTSensor.h"
 
 AirGradient ag = AirGradient();
+SHTSensor sht;
 
 U8G2_SSD1306_64X48_ER_1_HW_I2C u8g2(U8G2_R0, /* reset=*/ U8X8_PIN_NONE); //for DIY BASIC
 
@@ -78,6 +81,8 @@ long val;
 void setup()
 {
   Serial.begin(115200);
+  sht.init();
+  sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM);
   u8g2.setBusClock(100000);
   u8g2.begin();
   updateOLED();
@@ -88,7 +93,7 @@ void setup()
   updateOLED2("Warm Up", "Serial#", String(ESP.getChipId(), HEX));
   ag.CO2_Init();
   ag.PMS_Init();
-  ag.TMP_RH_Init(0x44);
+  //ag.TMP_RH_Init(0x44);
 }
 
 
@@ -124,9 +129,19 @@ void updateTempHum()
 {
     if (currentMillis - previousTempHum >= tempHumInterval) {
       previousTempHum += tempHumInterval;
-      TMP_RH result = ag.periodicFetchData();
+    if (sht.readSample()) {
-      temp = result.t;
+      Serial.print("SHT:\n");
-      hum = result.rh;
+      Serial.print("  RH: ");
+      Serial.print(sht.getHumidity(), 2);
+      Serial.print("\n");
+      Serial.print("  T:  ");
+      Serial.print(sht.getTemperature(), 2);
+      Serial.print("\n");
+      temp = sht.getTemperature();
+      hum = sht.getHumidity();
+        } else {
+      Serial.print("Error in readSample()\n");
+      }
       Serial.println(String(temp));
     }
 }

examples/DIY_OUTDOOR_C3/DIY_OUTDOOR_C3.ino

@@ -11,6 +11,8 @@ The codes needs the following libraries installed:
 
 For built instructions and how to patch the PMS library: https://www.airgradient.com/open-airgradient/instructions/diy-open-air-presoldered-v11/
 
+Note that below code only works with both PM sensor modules connected.
+
 If you have any questions please visit our forum at https://forum.airgradient.com/
 
 CC BY-SA 4.0 Attribution-ShareAlike 4.0 International License
@@ -30,36 +32,122 @@ HTTPClient client;
 PMS pms1(Serial0);
 PMS::DATA data1;
 
+float pm1Value01=0;
+float pm1Value25=0;
+float pm1Value10=0;
+float pm1PCount=0;
+float pm1temp = 0;
+float pm1hum = 0;
+
 PMS pms2(Serial1);
 PMS::DATA data2;
 
-float pm1Value=0;
+float pm2Value01=0;
-int pm1Position = 0;
+float pm2Value25=0;
+float pm2Value10=0;
+float pm2PCount=0;
+float pm2temp = 0;
+float pm2hum = 0;
 
-float pm2Value=0;
+int countPosition = 0;
-int pm2Position = 0;
+int targetCount = 20;
 
-float temp_pm1 = 0;
-float hum_pm1 = 0;
-
-float temp_pm2 = 0;
-float hum_pm2 = 0;
-
-unsigned long currentMillis = 0;
-
-const int pm1Interval = 5000;
-unsigned long previousPm1 = 0;
-
-const int pm2Interval = 5000;
-unsigned long previousPm2 = 0;
 
 String APIROOT = "http://hw.airgradient.com/";
 
-bool ledOn = false;
-
 int loopCount = 0;
 
-int averageCount = 10;
+
+void IRAM_ATTR isr() {
+  debugln("pushed");
+}
+
+// select board LOLIN C3 mini to flash
+void setup() {
+    if (DEBUG) {
+      Serial.begin(115200);
+      // see https://github.com/espressif/arduino-esp32/issues/6983
+      Serial.setTxTimeoutMs(0);   // <<<====== solves the delay issue
+    }
+
+    debug("starting ...");
+    debug("Serial Number: "+ getNormalizedMac());
+
+    // default hardware serial, PMS connector on the right side of the C3 mini on the Open Air
+    Serial0.begin(9600);
+
+    // second hardware serial, PMS connector on the left side of the C3 mini on the Open Air
+    Serial1.begin(9600, SERIAL_8N1, 0, 1);
+
+    // led
+    pinMode(10, OUTPUT);
+
+    // push button
+    pinMode(9, INPUT_PULLUP);
+    attachInterrupt(9, isr, FALLING);
+
+    pinMode(2, OUTPUT);
+    digitalWrite(2, LOW);
+
+    // give the PMSs some time to start
+    countdown(3);
+
+    connectToWifi();
+    sendPing();
+    switchLED(false);
+}
+
+void loop() {
+  if(WiFi.status()== WL_CONNECTED) {
+     if (pms1.readUntil(data1, 2000) && pms2.readUntil(data2, 2000)) {
+        pm1Value01=pm1Value01+data1.PM_AE_UG_1_0;
+        pm1Value25=pm1Value25+data1.PM_AE_UG_2_5;
+        pm1Value10=pm1Value10+data1.PM_AE_UG_10_0;
+        pm1PCount=pm1PCount+data1.PM_RAW_0_3;
+        pm1temp=pm1temp+data1.AMB_TMP;
+        pm1hum=pm1hum+data1.AMB_HUM;
+        pm2Value01=pm2Value01+data2.PM_AE_UG_1_0;
+        pm2Value25=pm2Value25+data2.PM_AE_UG_2_5;
+        pm2Value10=pm2Value10+data2.PM_AE_UG_10_0;
+        pm2PCount=pm2PCount+data2.PM_RAW_0_3;
+        pm2temp=pm2temp+data2.AMB_TMP;
+        pm2hum=pm2hum+data2.AMB_HUM;
+        countPosition++;
+        if (countPosition==targetCount) {
+          pm1Value01 = pm1Value01 / targetCount;
+          pm1Value25 = pm1Value25 / targetCount;
+          pm1Value10 = pm1Value10 / targetCount;
+          pm1PCount = pm1PCount / targetCount;
+          pm1temp = pm1temp / targetCount;
+          pm1hum = pm1hum / targetCount;
+          pm2Value01 = pm2Value01 / targetCount;
+          pm2Value25 = pm2Value25 / targetCount;
+          pm2Value10 = pm2Value10 / targetCount;
+          pm2PCount = pm2PCount / targetCount;
+          pm2temp = pm2temp / targetCount;
+          pm2hum = pm2hum / targetCount;
+          postToServer(pm1Value01, pm1Value25,pm1Value10,pm1PCount, pm1temp,pm1hum,pm2Value01, pm2Value25,pm2Value10,pm2PCount, pm2temp,pm2hum);
+
+          countPosition=0;
+          pm1Value01=0;
+          pm1Value25=0;
+          pm1Value10=0;
+          pm1PCount=0;
+          pm1temp=0;
+          pm1hum=0;
+          pm2Value01=0;
+          pm2Value25=0;
+          pm2Value10=0;
+          pm2PCount=0;
+          pm2temp=0;
+          pm2hum=0;
+        }
+     }
+
+  }
+
+countdown(2);
+}
 
 void debug(String msg) {
   if (DEBUG)
@@ -83,27 +171,54 @@ void debugln(int msg) {
 
 void switchLED(boolean ledON) {
  if (ledON) {
-     digitalWrite(10, HIGH); 
+     digitalWrite(10, HIGH);
   } else {
-    digitalWrite(10, LOW); 
+    digitalWrite(10, LOW);
   }
 }
 
-void IRAM_ATTR isr() {
+void sendPing(){
-  debugln("pushed");
+      String payload = "{\"wifi\":" + String(WiFi.RSSI())
+    + ", \"boot\":" + loopCount
+    + "}";
+    sendPayload(payload);
 }
 
-void postToServer(String postfix, int pm25,float tem, float hum) {
+void postToServer(int pm1Value01, int pm1Value25, int pm1Value10, int pm1PCount, float pm1temp, float pm1hum,int pm2Value01, int pm2Value25, int pm2Value10, int pm2PCount, float pm2temp, float pm2hum) {
-    String payload = "{\"wifi\":" + String(WiFi.RSSI()) 
+    String payload = "{\"wifi\":" + String(WiFi.RSSI())
-    + ", \"pm02\":" + String(pm25) 
+    + ", \"pm01\":" + String((pm1Value01+pm2Value01)/2)
-    + ", \"atmp\":" + String(tem/10)
+    + ", \"pm02\":" + String((pm1Value25+pm2Value25)/2)
-    + ", \"rhum\":" + String(hum/10)
+    + ", \"pm10\":" + String((pm1Value10+pm2Value10)/2)
-    + ", \"boot\":" + loopCount 
+    + ", \"pm003_count\":" + String((pm1PCount+pm2PCount)/2)
+    + ", \"atmp\":" + String((pm1temp+pm2temp)/20)
+    + ", \"rhum\":" + String((pm1hum+pm2hum)/20)
+    + ", \"boot\":" + loopCount
+     + ", \"channels\": {"
+        + "\"1\":{"
+        + "\"pm01\":" + String(pm1Value01)
+         + ", \"pm02\":" + String(pm1Value25)
+         + ", \"pm10\":" + String(pm1Value10)
+         + ", \"pm003_count\":" + String(pm1PCount)
+         + ", \"atmp\":" + String(pm1temp/10)
+         + ", \"rhum\":" + String(pm1hum/10)
+         + "}"
+         + ", \"2\":{"
+         + " \"pm01\":" + String(pm1Value01)
+         + ", \"pm02\":" + String(pm2Value25)
+         + ", \"pm10\":" + String(pm2Value10)
+         + ", \"pm003_count\":" + String(pm2PCount)
+         + ", \"atmp\":" + String(pm2temp/10)
+         + ", \"rhum\":" + String(pm2hum/10)
+         + "}"
+      + "}"
     + "}";
-    
+    sendPayload(payload);
-    if(WiFi.status()== WL_CONNECTED){
+}
+
+void sendPayload(String payload) {
+      if(WiFi.status()== WL_CONNECTED){
       switchLED(true);
-      String url = APIROOT + "sensors/airgradient:" + getNormalizedMac() + postfix + "/measures";
+      String url = APIROOT + "sensors/airgradient:" + getNormalizedMac() + "/measures";
       debugln(url);
       debugln(payload);
       client.setConnectTimeout(5 * 1000);
@@ -117,7 +232,7 @@ void postToServer(String postfix, int pm25,float tem, float hum) {
     }
     else {
       debug("post skipped, not network connection");
-    } 
+    }
     loopCount++;
 }
 
@@ -131,92 +246,12 @@ void countdown(int from) {
   debug("\n");
 }
 
-
-// select board LOLIN C3 mini to flash
-void setup() {
-    if (DEBUG) {
-      Serial.begin(115200);
-      // see https://github.com/espressif/arduino-esp32/issues/6983
-      Serial.setTxTimeoutMs(0);   // <<<====== solves the delay issue
-    }
-    
-    debug("starting ...");
-
-    // default hardware serial, PMS connector on the right side of the C3 mini on the Open Air
-    Serial0.begin(9600);
-
-    // second hardware serial, PMS connector on the left side of the C3 mini on the Open Air
-    Serial1.begin(9600, SERIAL_8N1, 0, 1);
-    
-    // led
-    pinMode(10, OUTPUT);
-    
-    // push button
-    pinMode(9, INPUT_PULLUP);
-    attachInterrupt(9, isr, FALLING);
-
-    pinMode(2, OUTPUT);
-    digitalWrite(2, LOW);
-
-    // give the PMSs some time to start
-    countdown(3);
-
-    connectToWifi();
-    switchLED(false);
-}
-
 void resetWatchdog() {
-    digitalWrite(2, HIGH); 
+    digitalWrite(2, HIGH);
     delay(20);
     digitalWrite(2, LOW);
 }
 
-void loop() {
-
-  if(WiFi.status()== WL_CONNECTED) {
-       
-    if (pms1.readUntil(data1, 2000)) {
-      pm1Value=pm1Value+data1.PM_AE_UG_2_5;
-      temp_pm1=temp_pm1+data1.AMB_TMP;
-      hum_pm1=hum_pm1+data1.AMB_HUM;
-      debugln("PMS 1 measurement "+String(pm1Position)+": "+String(data1.PM_AE_UG_2_5)+"ug/m3");
-      pm1Position++;
-        if (pm1Position==averageCount) {
-          pm1Value = pm1Value / averageCount;
-          temp_pm1 = temp_pm1 / averageCount;
-          hum_pm1 = hum_pm1 / averageCount;
-          postToServer("-1", pm1Value, temp_pm1,hum_pm1);
-          pm1Position=0;
-          pm1Value=0;
-        }    
-    } else {
-       debugln("PMS 1 does't respond");
-    }
-
-    if (pms2.readUntil(data2, 2000)) {
-      pm2Value=pm2Value+data2.PM_AE_UG_2_5;
-      temp_pm2=temp_pm2+data2.AMB_TMP;
-      hum_pm2=hum_pm2+data2.AMB_HUM;
-      debugln("PMS 2 measurement "+String(pm2Position)+": "+String(data2.PM_AE_UG_2_5)+"ug/m3");
-      pm2Position++;
-        if (pm2Position==averageCount) {
-          pm2Value = pm2Value / averageCount;
-          temp_pm2 = temp_pm2 / averageCount;
-          hum_pm2 = hum_pm2 / averageCount;
-          postToServer("-2", pm2Value, temp_pm2, hum_pm2);
-          pm2Position=0;
-          pm2Value=0;
-        }    
-    } else {
-       debugln("PMS 2 does't respond");
-    }
-
-  }
-
-countdown(2);
-}
-
-
 // Wifi Manager
  void connectToWifi() {
    WiFiManager wifiManager;
@@ -224,7 +259,7 @@ countdown(2);
    //WiFi.disconnect(); //to delete previous saved hotspot
    String HOTSPOT = "AG-" + String(getNormalizedMac());
    wifiManager.setTimeout(180);
-   
+
 
    if (!wifiManager.autoConnect((const char * ) HOTSPOT.c_str())) {
     switchLED(false);

examples/DIY_PRO_V4_2/DIY_PRO_V4_2.ino

@@ -14,6 +14,7 @@ The codes needs the following libraries installed:
 “U8g2” by oliver tested with version 2.32.15
 "Sensirion I2C SGP41" by Sensation Version 0.1.0
 "Sensirion Gas Index Algorithm" by Sensation Version 3.2.1
+"Arduino-SHT" by Johannes Winkelmann Version 1.2.2
 
 Configuration:
 Please set in the code below the configuration parameters.
@@ -35,6 +36,7 @@ CC BY-SA 4.0 Attribution-ShareAlike 4.0 International License
 #include <WiFiClient.h>
 
 #include <EEPROM.h>
+#include "SHTSensor.h"
 
 //#include "SGP30.h"
 #include <SensirionI2CSgp41.h>
@@ -48,6 +50,8 @@ AirGradient ag = AirGradient();
 SensirionI2CSgp41 sgp41;
 VOCGasIndexAlgorithm voc_algorithm;
 NOxGasIndexAlgorithm nox_algorithm;
+SHTSensor sht;
+
 // time in seconds needed for NOx conditioning
 uint16_t conditioning_s = 10;
 
@@ -99,16 +103,19 @@ const int co2Interval = 5000;
 unsigned long previousCo2 = 0;
 int Co2 = 0;
 
-const int pm25Interval = 5000;
+const int pmInterval = 5000;
-unsigned long previousPm25 = 0;
+unsigned long previousPm = 0;
 int pm25 = 0;
+int pm01 = 0;
+int pm10 = 0;
+int pm03PCount = 0;
 
 const int tempHumInterval = 2500;
 unsigned long previousTempHum = 0;
 float temp = 0;
 int hum = 0;
 
-int buttonConfig=4;
+int buttonConfig=0;
 int lastState = LOW;
 int currentState;
 unsigned long pressedTime  = 0;
@@ -118,23 +125,28 @@ void setup() {
   Serial.begin(115200);
   Serial.println("Hello");
   u8g2.begin();
+  sht.init();
+  sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM);
   //u8g2.setDisplayRotation(U8G2_R0);
 
   EEPROM.begin(512);
   delay(500);
 
   buttonConfig = String(EEPROM.read(addr)).toInt();
+  if (buttonConfig>3) buttonConfig=0;
+  delay(400);
   setConfig();
-
+  Serial.println("buttonConfig: "+String(buttonConfig));
    updateOLED2("Press Button", "Now for", "Config Menu");
     delay(2000);
-
+  pinMode(D7, INPUT_PULLUP);
   currentState = digitalRead(D7);
-  if (currentState == HIGH)
+  if (currentState == LOW)
   {
     updateOLED2("Entering", "Config Menu", "");
     delay(3000);
-    lastState = LOW;
+    lastState = HIGH;
+    setConfig();
     inConf();
   }
 
@@ -155,7 +167,7 @@ void loop() {
   updateTVOC();
   updateOLED();
   updateCo2();
-  updatePm25();
+  updatePm();
   updateTempHum();
   sendToServer();
 }
@@ -164,20 +176,26 @@ void inConf(){
   setConfig();
   currentState = digitalRead(D7);
 
-  if(lastState == LOW && currentState == HIGH) {
+  if (currentState){
+    Serial.println("currentState: high");
+  } else {
+    Serial.println("currentState: low");
+  }
+
+  if(lastState == HIGH && currentState == LOW) {
     pressedTime = millis();
   }
 
-  else if(lastState == HIGH && currentState == LOW) {
+  else if(lastState == LOW && currentState == HIGH) {
     releasedTime = millis();
     long pressDuration = releasedTime - pressedTime;
     if( pressDuration < 1000 ) {
       buttonConfig=buttonConfig+1;
-      if (buttonConfig>7) buttonConfig=0;
+      if (buttonConfig>3) buttonConfig=0;
     }
   }
 
-  if (lastState == HIGH && currentState == HIGH){
+  if (lastState == LOW && currentState == LOW){
      long passedDuration = millis() - pressedTime;
       if( passedDuration > 4000 ) {
         // to do
@@ -208,43 +226,23 @@ void inConf(){
 
 void setConfig() {
   if (buttonConfig == 0) {
-    updateOLED2("Temp. in C", "PM in ug/m3", "Display Top");
+    updateOLED2("Temp. in C", "PM in ug/m3", "Long Press Saves");
-      u8g2.setDisplayRotation(U8G2_R2);
-      inF = false;
-      inUSAQI = false;
-  } else if (buttonConfig == 1) {
-    updateOLED2("Temp. in C", "PM in US AQI", "Display Top");
-      u8g2.setDisplayRotation(U8G2_R2);
-      inF = false;
-      inUSAQI = true;
-  } else if (buttonConfig == 2) {
-    updateOLED2("Temp. in F", "PM in ug/m3", "Display Top");
-      u8g2.setDisplayRotation(U8G2_R2);
-      inF = true;
-      inUSAQI = false;
-  } else if (buttonConfig == 3) {
-    updateOLED2("Temp. in F", "PM in US AQI", "Display Top");
-      u8g2.setDisplayRotation(U8G2_R2);
-       inF = true;
-      inUSAQI = true;
-  } else if (buttonConfig == 4) {
-    updateOLED2("Temp. in C", "PM in ug/m3", "Display Bottom");
       u8g2.setDisplayRotation(U8G2_R0);
       inF = false;
       inUSAQI = false;
   }
-    if (buttonConfig == 5) {
+    if (buttonConfig == 1) {
-    updateOLED2("Temp. in C", "PM in US AQI", "Display Bottom");
+    updateOLED2("Temp. in C", "PM in US AQI", "Long Press Saves");
       u8g2.setDisplayRotation(U8G2_R0);
       inF = false;
       inUSAQI = true;
-  } else if (buttonConfig == 6) {
+  } else if (buttonConfig == 2) {
-    updateOLED2("Temp. in F", "PM in ug/m3", "Display Bottom");
+    updateOLED2("Temp. in F", "PM in ug/m3", "Long Press Saves");
     u8g2.setDisplayRotation(U8G2_R0);
       inF = true;
       inUSAQI = false;
-  } else  if (buttonConfig == 7) {
+  } else  if (buttonConfig == 3) {
-    updateOLED2("Temp. in F", "PM in US AQI", "Display Bottom");
+    updateOLED2("Temp. in F", "PM in US AQI", "Long Press Saves");
       u8g2.setDisplayRotation(U8G2_R0);
        inF = true;
       inUSAQI = true;
@@ -301,11 +299,14 @@ void updateCo2()
     }
 }
 
-void updatePm25()
+void updatePm()
 {
-    if (currentMillis - previousPm25 >= pm25Interval) {
+    if (currentMillis - previousPm >= pmInterval) {
-      previousPm25 += pm25Interval;
+      previousPm += pmInterval;
+      pm01 = ag.getPM1_Raw();
       pm25 = ag.getPM2_Raw();
+      pm10 = ag.getPM10_Raw();
+      pm03PCount = ag.getPM0_3Count();
       Serial.println(String(pm25));
     }
 }
@@ -314,9 +315,20 @@ void updateTempHum()
 {
     if (currentMillis - previousTempHum >= tempHumInterval) {
       previousTempHum += tempHumInterval;
-      TMP_RH result = ag.periodicFetchData();
+
-      temp = result.t;
+      if (sht.readSample()) {
-      hum = result.rh;
+      Serial.print("SHT:\n");
+      Serial.print("  RH: ");
+      Serial.print(sht.getHumidity(), 2);
+      Serial.print("\n");
+      Serial.print("  T:  ");
+      Serial.print(sht.getTemperature(), 2);
+      Serial.print("\n");
+      temp = sht.getTemperature();
+      hum = sht.getHumidity();
+  } else {
+      Serial.print("Error in readSample()\n");
+  }
       Serial.println(String(temp));
     }
 }
@@ -362,7 +374,10 @@ void sendToServer() {
      previoussendToServer += sendToServerInterval;
       String payload = "{\"wifi\":" + String(WiFi.RSSI())
       + (Co2 < 0 ? "" : ", \"rco2\":" + String(Co2))
+      + (pm01 < 0 ? "" : ", \"pm01\":" + String(pm01))
       + (pm25 < 0 ? "" : ", \"pm02\":" + String(pm25))
+      + (pm10 < 0 ? "" : ", \"pm10\":" + String(pm10))
+      + (pm03PCount < 0 ? "" : ", \"pm003_count\":" + String(pm03PCount))
       + (TVOC < 0 ? "" : ", \"tvoc_index\":" + String(TVOC))
       + (NOX < 0 ? "" : ", \"nox_index\":" + String(NOX))
       + ", \"atmp\":" + String(temp)

examples/DIY_PRO_WITH_SENSIRION_NOX/DIY_PRO_WITH_SENSIRION_NOX.ino

@@ -1,310 +0,0 @@
-/*
-This is the code for the AirGradient DIY PRO Air Quality Sensor with an ESP8266 Microcontroller with the SGP40 TVOC module from AirGradient.
-
-It is a high quality sensor showing PM2.5, CO2, Temperature and Humidity on a small display and can send data over Wifi.
-
-Build Instructions: https://www.airgradient.com/open-airgradient/instructions/diy-pro/
-
-Kits (including a pre-soldered version) are available: https://www.airgradient.com/open-airgradient/kits/
-
-The codes needs the following libraries installed:
-“WifiManager by tzapu, tablatronix” tested with version 2.0.11-beta
-“U8g2” by oliver tested with version 2.32.15
-"Sensirion I2C SGP41" by Sensation Version 0.1.0
-"Sensirion Gas Index Algorithm" by Sensation Version 3.2.1
-
-Configuration:
-Please set in the code below the configuration parameters.
-
-If you have any questions please visit our forum at https://forum.airgradient.com/
-
-If you are a school or university contact us for a free trial on the AirGradient platform.
-https://www.airgradient.com/
-
-MIT License
-
-*/
-
-
-#include <AirGradient.h>
-#include <WiFiManager.h>
-#include <ESP8266WiFi.h>
-#include <ESP8266HTTPClient.h>
-#include <WiFiClient.h>
-
-//#include "SGP30.h"
-#include <SensirionI2CSgp41.h>
-#include <NOxGasIndexAlgorithm.h>
-#include <VOCGasIndexAlgorithm.h>
-
-
-#include <U8g2lib.h>
-
-AirGradient ag = AirGradient();
-SensirionI2CSgp41 sgp41;
-VOCGasIndexAlgorithm voc_algorithm;
-NOxGasIndexAlgorithm nox_algorithm;
-// time in seconds needed for NOx conditioning
-uint16_t conditioning_s = 10;
-
-// Display bottom right
-U8G2_SH1106_128X64_NONAME_F_HW_I2C u8g2(U8G2_R0, /* reset=*/ U8X8_PIN_NONE);
-
-// Replace above if you have display on top left
-//U8G2_SH1106_128X64_NONAME_F_HW_I2C u8g2(U8G2_R2, /* reset=*/ U8X8_PIN_NONE);
-
-
-// CONFIGURATION START
-
-//set to the endpoint you would like to use
-String APIROOT = "http://hw.airgradient.com/";
-
-// set to true to switch from Celcius to Fahrenheit
-boolean inF = false;
-
-// set to true if you want to connect to wifi. You have 60 seconds to connect. Then it will go into an offline mode.
-boolean connectWIFI=true;
-
-// CONFIGURATION END
-
-
-unsigned long currentMillis = 0;
-
-const int oledInterval = 5000;
-unsigned long previousOled = 0;
-
-const int sendToServerInterval = 10000;
-unsigned long previoussendToServer = 0;
-
-const int tvocInterval = 1000;
-unsigned long previousTVOC = 0;
-int TVOC = 0;
-int NOX = 0;
-
-const int co2Interval = 5000;
-unsigned long previousCo2 = 0;
-int Co2 = 0;
-
-const int pm25Interval = 5000;
-unsigned long previousPm25 = 0;
-int pm25 = 0;
-
-const int tempHumInterval = 2500;
-unsigned long previousTempHum = 0;
-float temp = 0;
-int hum = 0;
-
-void setup()
-{
-  Serial.begin(115200);
-  u8g2.setBusClock(100000);
-  u8g2.begin();
-  updateOLED();
-
-    if (connectWIFI) {
-    connectToWifi();
-  }
-
-  updateOLED2("Warming up the", "sensors.", "");
-  sgp41.begin(Wire);
-  ag.CO2_Init();
-  ag.PMS_Init();
-  ag.TMP_RH_Init(0x44);
-}
-
-
-void loop()
-{
-  currentMillis = millis();
-  updateTVOC();
-  updateOLED();
-  updateCo2();
-  updatePm25();
-  updateTempHum();
-  sendToServer();
-}
-
-void updateTVOC()
-{
- uint16_t error;
-    char errorMessage[256];
-    uint16_t defaultRh = 0x8000;
-    uint16_t defaultT = 0x6666;
-    uint16_t srawVoc = 0;
-    uint16_t srawNox = 0;
-    uint16_t defaultCompenstaionRh = 0x8000;  // in ticks as defined by SGP41
-    uint16_t defaultCompenstaionT = 0x6666;   // in ticks as defined by SGP41
-    uint16_t compensationRh = 0;              // in ticks as defined by SGP41
-    uint16_t compensationT = 0;               // in ticks as defined by SGP41
-
-    delay(1000);
-
-        compensationT = static_cast<uint16_t>((temp + 45) * 65535 / 175);
-        compensationRh = static_cast<uint16_t>(hum * 65535 / 100);
-
-    // 3. Measure SGP4x signals
-
-    if (conditioning_s > 0) {
-        // During NOx conditioning (10s) SRAW NOx will remain 0
-        error = sgp41.executeConditioning(compensationRh, compensationT, srawVoc);
-        conditioning_s--;
-    } else {
-        // Read Measurement
-        error = sgp41.measureRawSignals(compensationRh, compensationT, srawVoc,
-                                        srawNox);
-    }
-
-    if (error) {
-        Serial.print("Error trying to execute measureRawSignals(): ");
-        errorToString(error, errorMessage, 256);
-        Serial.println(errorMessage);
-    } else {
-        Serial.print("SRAW_VOC:");
-        Serial.print(srawVoc);
-        Serial.print("\t");
-        Serial.print("SRAW_NOx:");
-        Serial.println(srawNox);
-    }
-
-
-    if (currentMillis - previousTVOC >= tvocInterval) {
-      previousTVOC += tvocInterval;
-      TVOC = voc_algorithm.process(srawVoc);
-      NOX = nox_algorithm.process(srawNox);
-     // TVOC = sgp40.getVoclndex();
-      Serial.println(String(TVOC));
-    }
-}
-
-void updateCo2()
-{
-    if (currentMillis - previousCo2 >= co2Interval) {
-      previousCo2 += co2Interval;
-      Co2 = ag.getCO2_Raw();
-      Serial.println(String(Co2));
-    }
-}
-
-void updatePm25()
-{
-    if (currentMillis - previousPm25 >= pm25Interval) {
-      previousPm25 += pm25Interval;
-      pm25 = ag.getPM2_Raw();
-      Serial.println(String(pm25));
-    }
-}
-
-void updateTempHum()
-{
-    if (currentMillis - previousTempHum >= tempHumInterval) {
-      previousTempHum += tempHumInterval;
-      TMP_RH result = ag.periodicFetchData();
-      temp = result.t;
-      hum = result.rh;
-      Serial.println(String(temp));
-    }
-}
-
-void updateOLED() {
-   if (currentMillis - previousOled >= oledInterval) {
-     previousOled += oledInterval;
-
-    String ln3;
-    String ln1 = "PM:" + String(pm25) +  " CO2:" + String(Co2);
-  //  String ln2 = "AQI:" + String(PM_TO_AQI_US(pm25)) + " TVOC:" + String(TVOC);
-     String ln2 = "TVOC:" + String(TVOC) + " NOX:" + String(NOX);
-
-      if (inF) {
-        ln3 = "F:" + String((temp* 9 / 5) + 32) + " H:" + String(hum)+"%";
-        } else {
-        ln3 = "C:" + String(temp) + " H:" + String(hum)+"%";
-       }
-     updateOLED2(ln1, ln2, ln3);
-   }
-}
-
-void updateOLED2(String ln1, String ln2, String ln3) {
-      char buf[9];
-          u8g2.firstPage();
-          u8g2.firstPage();
-          do {
-          u8g2.setFont(u8g2_font_t0_16_tf);
-          u8g2.drawStr(1, 10, String(ln1).c_str());
-          u8g2.drawStr(1, 30, String(ln2).c_str());
-          u8g2.drawStr(1, 50, String(ln3).c_str());
-            } while ( u8g2.nextPage() );
-}
-
-void sendToServer() {
-   if (currentMillis - previoussendToServer >= sendToServerInterval) {
-     previoussendToServer += sendToServerInterval;
-      String payload = "{\"wifi\":" + String(WiFi.RSSI())
-      + (Co2 < 0 ? "" : ", \"rco2\":" + String(Co2))
-      + (pm25 < 0 ? "" : ", \"pm02\":" + String(pm25))
-      + (TVOC < 0 ? "" : ", \"tvoc_index\":" + String(TVOC))
-      + (NOX < 0 ? "" : ", \"nox_index\":" + String(NOX))
-      + ", \"atmp\":" + String(temp)
-      + (hum < 0 ? "" : ", \"rhum\":" + String(hum))
-      + "}";
-
-      if(WiFi.status()== WL_CONNECTED){
-        Serial.println(payload);
-        String POSTURL = APIROOT + "sensors/airgradient:" + String(ESP.getChipId(), HEX) + "/measures";
-        Serial.println(POSTURL);
-        WiFiClient client;
-        HTTPClient http;
-        http.begin(client, POSTURL);
-        http.addHeader("content-type", "application/json");
-        int httpCode = http.POST(payload);
-        String response = http.getString();
-        Serial.println(httpCode);
-        Serial.println(response);
-        http.end();
-      }
-      else {
-        Serial.println("WiFi Disconnected");
-      }
-   }
-}
-
-// Wifi Manager
- void connectToWifi() {
-   WiFiManager wifiManager;
-   //WiFi.disconnect(); //to delete previous saved hotspot
-   String HOTSPOT = "AG-" + String(ESP.getChipId(), HEX);
-   updateOLED2("60s to connect", "to Wifi Hotspot", HOTSPOT);
-   wifiManager.setTimeout(60);
-
-
-   WiFiManagerParameter custom_text("<p>This is just a text paragraph</p>");
-   wifiManager.addParameter(&custom_text);
-
-   WiFiManagerParameter parameter("parameterId", "Parameter Label", "default value", 40);
-   wifiManager.addParameter(&parameter);
-
-
-   Serial.println("Parameter 1:");
-   Serial.println(parameter.getValue());
-
-   if (!wifiManager.autoConnect((const char * ) HOTSPOT.c_str())) {
-     updateOLED2("booting into", "offline mode", "");
-     Serial.println("failed to connect and hit timeout");
-     delay(6000);
-   }
-
-   Serial.println("Parameter 2:");
-   Serial.println(parameter.getValue());
-
-}
-
-// Calculate PM2.5 US AQI
-int PM_TO_AQI_US(int pm02) {
-  if (pm02 <= 12.0) return ((50 - 0) / (12.0 - .0) * (pm02 - .0) + 0);
-  else if (pm02 <= 35.4) return ((100 - 50) / (35.4 - 12.0) * (pm02 - 12.0) + 50);
-  else if (pm02 <= 55.4) return ((150 - 100) / (55.4 - 35.4) * (pm02 - 35.4) + 100);
-  else if (pm02 <= 150.4) return ((200 - 150) / (150.4 - 55.4) * (pm02 - 55.4) + 150);
-  else if (pm02 <= 250.4) return ((300 - 200) / (250.4 - 150.4) * (pm02 - 150.4) + 200);
-  else if (pm02 <= 350.4) return ((400 - 300) / (350.4 - 250.4) * (pm02 - 250.4) + 300);
-  else if (pm02 <= 500.4) return ((500 - 400) / (500.4 - 350.4) * (pm02 - 350.4) + 400);
-  else return 500;
-};

examples/DIY_PRO_WITH_SGP30/DIY_PRO_WITH_SGP30.ino

@@ -1,248 +0,0 @@
-/*
-This is the code for the AirGradient DIY PRO Air Quality Sensor with an ESP8266 Microcontroller.
-
-It is a high quality sensor showing PM2.5, CO2, Temperature and Humidity on a small display and can send data over Wifi.
-
-Build Instructions: https://www.airgradient.com/open-airgradient/instructions/diy-pro/
-
-Kits (including a pre-soldered version) are available: https://www.airgradient.com/open-airgradient/kits/
-
-IMPORTANT: If you use SGP30 modules, you need to remove the Pull up resistors to make it work.
-See https://www.airgradient.com/open-airgradient/instructions/tvoc-on-airgradient-diy-sensor/
-
-If you want to use TVOC we strongly recommend you use the AirGradient SGP4x module available in our online shop.
-
-The codes needs the following libraries installed:
-“WifiManager by tzapu, tablatronix” tested with version 2.0.11-beta
-“U8g2” by oliver tested with version 2.32.15
-“SGP30” by Rob Tilaart tested with Version 0.1.5
-
-Configuration:
-Please set in the code below the configuration parameters.
-
-If you have any questions please visit our forum at https://forum.airgradient.com/
-
-If you are a school or university contact us for a free trial on the AirGradient platform.
-https://www.airgradient.com/
-
-CC BY-SA 4.0 Attribution-ShareAlike 4.0 International License
-
-*/
-
-
-#include <AirGradient.h>
-#include <WiFiManager.h>
-#include <ESP8266WiFi.h>
-#include <ESP8266HTTPClient.h>
-#include <WiFiClient.h>
-
-#include "SGP30.h"
-#include <U8g2lib.h>
-
-AirGradient ag = AirGradient();
-SGP30 SGP;
-
-// Display bottom right
-U8G2_SH1106_128X64_NONAME_F_HW_I2C u8g2(U8G2_R0, /* reset=*/ U8X8_PIN_NONE);
-
-// Replace above if you have display on top left
-//U8G2_SH1106_128X64_NONAME_F_HW_I2C u8g2(U8G2_R2, /* reset=*/ U8X8_PIN_NONE);
-
-
-// CONFIGURATION START
-
-//set to the endpoint you would like to use
-String APIROOT = "http://hw.airgradient.com/";
-
-// set to true to switch from Celcius to Fahrenheit
-boolean inF = false;
-
-// set to true if you want to connect to wifi. You have 60 seconds to connect. Then it will go into an offline mode.
-boolean connectWIFI=true;
-
-// CONFIGURATION END
-
-
-unsigned long currentMillis = 0;
-
-const int oledInterval = 5000;
-unsigned long previousOled = 0;
-
-const int sendToServerInterval = 10000;
-unsigned long previoussendToServer = 0;
-
-const int tvocInterval = 1000;
-unsigned long previousTVOC = 0;
-int TVOC = 0;
-
-const int co2Interval = 5000;
-unsigned long previousCo2 = 0;
-int Co2 = 0;
-
-const int pm25Interval = 5000;
-unsigned long previousPm25 = 0;
-int pm25 = 0;
-
-const int tempHumInterval = 2500;
-unsigned long previousTempHum = 0;
-float temp = 0;
-int hum = 0;
-
-void setup()
-{
-  Serial.begin(115200);
-  u8g2.setBusClock(100000);
-  u8g2.begin();
-  updateOLED();
-
-    if (connectWIFI) {
-    connectToWifi();
-  }
-
-  updateOLED2("Warming up the", "sensors.", "");
-
-  Serial.println(SGP.begin());
-  SGP.GenericReset();
-
-  ag.CO2_Init();
-  ag.PMS_Init();
-  ag.TMP_RH_Init(0x44);
-}
-
-
-void loop()
-{
-  currentMillis = millis();
-  updateTVOC();
-  updateOLED();
-  updateCo2();
-  updatePm25();
-  updateTempHum();
-  sendToServer();
-}
-
-void updateTVOC()
-{
-    if (currentMillis - previousTVOC >= tvocInterval) {
-      previousTVOC += tvocInterval;
-      SGP.measure(true);
-      TVOC = SGP.getTVOC();
-      Serial.println(String(TVOC));
-    }
-}
-
-void updateCo2()
-{
-    if (currentMillis - previousCo2 >= co2Interval) {
-      previousCo2 += co2Interval;
-      Co2 = ag.getCO2_Raw();
-      Serial.println(String(Co2));
-    }
-}
-
-void updatePm25()
-{
-    if (currentMillis - previousPm25 >= pm25Interval) {
-      previousPm25 += pm25Interval;
-      pm25 = ag.getPM2_Raw();
-      Serial.println(String(pm25));
-    }
-}
-
-void updateTempHum()
-{
-    if (currentMillis - previousTempHum >= tempHumInterval) {
-      previousTempHum += tempHumInterval;
-      TMP_RH result = ag.periodicFetchData();
-      temp = result.t;
-      hum = result.rh;
-      Serial.println(String(temp));
-    }
-}
-
-void updateOLED() {
-   if (currentMillis - previousOled >= oledInterval) {
-     previousOled += oledInterval;
-
-    String ln3;
-    String ln1 = "PM:" + String(pm25) +  " CO2:" + String(Co2);
-    String ln2 = "AQI:" + String(PM_TO_AQI_US(pm25)) + " TVOC:" + String(TVOC);
-
-      if (inF) {
-        ln3 = "F:" + String((temp* 9 / 5) + 32) + " H:" + String(hum)+"%";
-        } else {
-        ln3 = "C:" + String(temp) + " H:" + String(hum)+"%";
-       }
-     updateOLED2(ln1, ln2, ln3);
-   }
-}
-
-void updateOLED2(String ln1, String ln2, String ln3) {
-      char buf[9];
-          u8g2.firstPage();
-          u8g2.firstPage();
-          do {
-          u8g2.setFont(u8g2_font_t0_16_tf);
-          u8g2.drawStr(1, 10, String(ln1).c_str());
-          u8g2.drawStr(1, 30, String(ln2).c_str());
-          u8g2.drawStr(1, 50, String(ln3).c_str());
-            } while ( u8g2.nextPage() );
-}
-
-void sendToServer() {
-   if (currentMillis - previoussendToServer >= sendToServerInterval) {
-     previoussendToServer += sendToServerInterval;
-
-      String payload = "{\"wifi\":" + String(WiFi.RSSI())
-      + (Co2 < 0 ? "" : ", \"rco2\":" + String(Co2))
-      + (pm25 < 0 ? "" : ", \"pm02\":" + String(pm25))
-      + (TVOC < 0 ? "" : ", \"tvoc\":" + String(TVOC))
-      + ", \"atmp\":" + String(temp)
-      + (hum < 0 ? "" : ", \"rhum\":" + String(hum))
-      + "}";
-
-      if(WiFi.status()== WL_CONNECTED){
-        Serial.println(payload);
-        String POSTURL = APIROOT + "sensors/airgradient:" + String(ESP.getChipId(), HEX) + "/measures";
-        Serial.println(POSTURL);
-        WiFiClient client;
-        HTTPClient http;
-        http.begin(client, POSTURL);
-        http.addHeader("content-type", "application/json");
-        int httpCode = http.POST(payload);
-        String response = http.getString();
-        Serial.println(httpCode);
-        Serial.println(response);
-        http.end();
-      }
-      else {
-        Serial.println("WiFi Disconnected");
-      }
-   }
-}
-
-// Wifi Manager
- void connectToWifi() {
-   WiFiManager wifiManager;
-   //WiFi.disconnect(); //to delete previous saved hotspot
-   String HOTSPOT = "AG-" + String(ESP.getChipId(), HEX);
-   updateOLED2("60s to connect", "to Wifi Hotspot", HOTSPOT);
-   wifiManager.setTimeout(60);
-   if (!wifiManager.autoConnect((const char * ) HOTSPOT.c_str())) {
-     updateOLED2("booting into", "offline mode", "");
-     Serial.println("failed to connect and hit timeout");
-     delay(6000);
-   }
-}
-
-// Calculate PM2.5 US AQI
-int PM_TO_AQI_US(int pm02) {
-  if (pm02 <= 12.0) return ((50 - 0) / (12.0 - .0) * (pm02 - .0) + 0);
-  else if (pm02 <= 35.4) return ((100 - 50) / (35.4 - 12.0) * (pm02 - 12.0) + 50);
-  else if (pm02 <= 55.4) return ((150 - 100) / (55.4 - 35.4) * (pm02 - 35.4) + 100);
-  else if (pm02 <= 150.4) return ((200 - 150) / (150.4 - 55.4) * (pm02 - 55.4) + 150);
-  else if (pm02 <= 250.4) return ((300 - 200) / (250.4 - 150.4) * (pm02 - 150.4) + 200);
-  else if (pm02 <= 350.4) return ((400 - 300) / (350.4 - 250.4) * (pm02 - 250.4) + 300);
-  else if (pm02 <= 500.4) return ((500 - 400) / (500.4 - 350.4) * (pm02 - 350.4) + 400);
-  else return 500;
-};

examples/DIY_PRO_WITH_SGP40/DIY_PRO_WITH_SGP40.ino

@@ -1,255 +0,0 @@
-/*
-This is the code for the AirGradient DIY PRO Air Quality Sensor with an ESP8266 Microcontroller with the SGP40 TVOC module from AirGradient.
-
-It is a high quality sensor showing PM2.5, CO2, Temperature and Humidity on a small display and can send data over Wifi.
-
-Build Instructions: https://www.airgradient.com/open-airgradient/instructions/diy-pro/
-
-Kits (including a pre-soldered version) are available: https://www.airgradient.com/open-airgradient/kits/
-
-The codes needs the following libraries installed:
-“WifiManager by tzapu, tablatronix” tested with version 2.0.11-beta
-“U8g2” by oliver tested with version 2.32.15
-“DFRobot_SGP40” by DFRobot tested with Version 1.0.3
-
-Configuration:
-Please set in the code below the configuration parameters.
-
-If you have any questions please visit our forum at https://forum.airgradient.com/
-
-If you are a school or university contact us for a free trial on the AirGradient platform.
-https://www.airgradient.com/
-
-CC BY-SA 4.0 Attribution-ShareAlike 4.0 International License
-
-*/
-
-
-#include <AirGradient.h>
-#include <WiFiManager.h>
-#include <ESP8266WiFi.h>
-#include <ESP8266HTTPClient.h>
-#include <WiFiClient.h>
-
-//#include "SGP30.h"
-#include <DFRobot_SGP40.h>
-#include <U8g2lib.h>
-
-AirGradient ag = AirGradient();
-DFRobot_SGP40    sgp40;
-
-// Display bottom right
-U8G2_SH1106_128X64_NONAME_F_HW_I2C u8g2(U8G2_R0, /* reset=*/ U8X8_PIN_NONE);
-
-// Replace above if you have display on top left
-//U8G2_SH1106_128X64_NONAME_F_HW_I2C u8g2(U8G2_R2, /* reset=*/ U8X8_PIN_NONE);
-
-
-// CONFIGURATION START
-
-//set to the endpoint you would like to use
-String APIROOT = "http://hw.airgradient.com/";
-
-// set to true to switch from Celcius to Fahrenheit
-boolean inF = false;
-
-// set to true if you want to connect to wifi. You have 60 seconds to connect. Then it will go into an offline mode.
-boolean connectWIFI=true;
-
-// CONFIGURATION END
-
-
-unsigned long currentMillis = 0;
-
-const int oledInterval = 5000;
-unsigned long previousOled = 0;
-
-const int sendToServerInterval = 10000;
-unsigned long previoussendToServer = 0;
-
-const int tvocInterval = 1000;
-unsigned long previousTVOC = 0;
-int TVOC = 0;
-
-const int co2Interval = 5000;
-unsigned long previousCo2 = 0;
-int Co2 = 0;
-
-const int pm25Interval = 5000;
-unsigned long previousPm25 = 0;
-int pm25 = 0;
-
-const int tempHumInterval = 2500;
-unsigned long previousTempHum = 0;
-float temp = 0;
-int hum = 0;
-
-void setup()
-{
-  Serial.begin(115200);
-  u8g2.setBusClock(100000);
-  u8g2.begin();
-  updateOLED();
-
-    if (connectWIFI) {
-    connectToWifi();
-  }
-
-  updateOLED2("Warming up the", "sensors.", "");
-  sgp40.begin();
-  ag.CO2_Init();
-  ag.PMS_Init();
-  ag.TMP_RH_Init(0x44);
-}
-
-
-void loop()
-{
-  currentMillis = millis();
-  updateTVOC();
-  updateOLED();
-  updateCo2();
-  updatePm25();
-  updateTempHum();
-  sendToServer();
-}
-
-void updateTVOC()
-{
-    if (currentMillis - previousTVOC >= tvocInterval) {
-      previousTVOC += tvocInterval;
-      TVOC = sgp40.getVoclndex();
-      Serial.println(String(TVOC));
-    }
-}
-
-void updateCo2()
-{
-    if (currentMillis - previousCo2 >= co2Interval) {
-      previousCo2 += co2Interval;
-      Co2 = ag.getCO2_Raw();
-      Serial.println(String(Co2));
-    }
-}
-
-void updatePm25()
-{
-    if (currentMillis - previousPm25 >= pm25Interval) {
-      previousPm25 += pm25Interval;
-      pm25 = ag.getPM2_Raw();
-      Serial.println(String(pm25));
-    }
-}
-
-void updateTempHum()
-{
-    if (currentMillis - previousTempHum >= tempHumInterval) {
-      previousTempHum += tempHumInterval;
-      TMP_RH result = ag.periodicFetchData();
-      temp = result.t;
-      hum = result.rh;
-      Serial.println(String(temp));
-    }
-}
-
-void updateOLED() {
-   if (currentMillis - previousOled >= oledInterval) {
-     previousOled += oledInterval;
-
-    String ln3;
-    String ln1 = "PM:" + String(pm25) +  " CO2:" + String(Co2);
-    String ln2 = "AQI:" + String(PM_TO_AQI_US(pm25)) + " TVOC:" + String(TVOC);
-
-      if (inF) {
-        ln3 = "F:" + String((temp* 9 / 5) + 32) + " H:" + String(hum)+"%";
-        } else {
-        ln3 = "C:" + String(temp) + " H:" + String(hum)+"%";
-       }
-     updateOLED2(ln1, ln2, ln3);
-   }
-}
-
-void updateOLED2(String ln1, String ln2, String ln3) {
-      char buf[9];
-          u8g2.firstPage();
-          u8g2.firstPage();
-          do {
-          u8g2.setFont(u8g2_font_t0_16_tf);
-          u8g2.drawStr(1, 10, String(ln1).c_str());
-          u8g2.drawStr(1, 30, String(ln2).c_str());
-          u8g2.drawStr(1, 50, String(ln3).c_str());
-            } while ( u8g2.nextPage() );
-}
-
-void sendToServer() {
-   if (currentMillis - previoussendToServer >= sendToServerInterval) {
-     previoussendToServer += sendToServerInterval;
-      String payload = "{\"wifi\":" + String(WiFi.RSSI())
-      + (Co2 < 0 ? "" : ", \"rco2\":" + String(Co2))
-      + (pm25 < 0 ? "" : ", \"pm02\":" + String(pm25))
-      + (TVOC < 0 ? "" : ", \"tvoc_index\":" + String(TVOC))
-      + ", \"atmp\":" + String(temp)
-      + (hum < 0 ? "" : ", \"rhum\":" + String(hum))
-      + "}";
-
-      if(WiFi.status()== WL_CONNECTED){
-        Serial.println(payload);
-        String POSTURL = APIROOT + "sensors/airgradient:" + String(ESP.getChipId(), HEX) + "/measures";
-        Serial.println(POSTURL);
-        WiFiClient client;
-        HTTPClient http;
-        http.begin(client, POSTURL);
-        http.addHeader("content-type", "application/json");
-        int httpCode = http.POST(payload);
-        String response = http.getString();
-        Serial.println(httpCode);
-        Serial.println(response);
-        http.end();
-      }
-      else {
-        Serial.println("WiFi Disconnected");
-      }
-   }
-}
-
-// Wifi Manager
- void connectToWifi() {
-   WiFiManager wifiManager;
-   //WiFi.disconnect(); //to delete previous saved hotspot
-   String HOTSPOT = "AG-" + String(ESP.getChipId(), HEX);
-   updateOLED2("60s to connect", "to Wifi Hotspot", HOTSPOT);
-   wifiManager.setTimeout(60);
-
-
-   WiFiManagerParameter custom_text("<p>This is just a text paragraph</p>");
-   wifiManager.addParameter(&custom_text);
-
-   WiFiManagerParameter parameter("parameterId", "Parameter Label", "default value", 40);
-   wifiManager.addParameter(&parameter);
-
-
-   Serial.println("Parameter 1:");
-   Serial.println(parameter.getValue());
-
-   if (!wifiManager.autoConnect((const char * ) HOTSPOT.c_str())) {
-     updateOLED2("booting into", "offline mode", "");
-     Serial.println("failed to connect and hit timeout");
-     delay(6000);
-   }
-
-   Serial.println("Parameter 2:");
-   Serial.println(parameter.getValue());
-
-}
-
-// Calculate PM2.5 US AQI
-int PM_TO_AQI_US(int pm02) {
-  if (pm02 <= 12.0) return ((50 - 0) / (12.0 - .0) * (pm02 - .0) + 0);
-  else if (pm02 <= 35.4) return ((100 - 50) / (35.4 - 12.0) * (pm02 - 12.0) + 50);
-  else if (pm02 <= 55.4) return ((150 - 100) / (55.4 - 35.4) * (pm02 - 35.4) + 100);
-  else if (pm02 <= 150.4) return ((200 - 150) / (150.4 - 55.4) * (pm02 - 55.4) + 150);
-  else if (pm02 <= 250.4) return ((300 - 200) / (250.4 - 150.4) * (pm02 - 150.4) + 200);
-  else if (pm02 <= 350.4) return ((400 - 300) / (350.4 - 250.4) * (pm02 - 250.4) + 300);
-  else if (pm02 <= 500.4) return ((500 - 400) / (500.4 - 350.4) * (pm02 - 350.4) + 400);
-  else return 500;
-};

library.properties

@@ -1,9 +1,9 @@
 name=AirGradient Air Quality Sensor
-version=2.4.2
+version=2.4.6
 author=AirGradient <support@airgradient.com>
 maintainer=AirGradient <support@airgradient.com>
 sentence=ESP8266 library for an air quality sensor featuring PM2.5, CO2, Temperature, TVOC and Humidity with OLED display.
-paragraph=Air quality monitoring library supporting the Plantower PMS5003 particle sensor, the Senseair S8 CO2 sensor and the SHT30/31 sensor for humidity and temperature. Kits with all components including a nice enclosure are available in our online shop. You can also connect an OLED display or send the air quality data to the AirGradient platform or any other backend. Optionally you can connect the Sensirion SGP4x TVOC module from AirGradient.
+paragraph=Air quality monitoring library supporting the Plantower PMS5003 particle sensor, the Senseair S8 CO2 sensor and the SHT3x/SHT4x sensor for humidity and temperature. Kits with all components including a nice enclosure are available in our online shop. You can also connect an OLED display or send the air quality data to the AirGradient platform or any other backend. Optionally you can connect the Sensirion SGP4x TVOC module from AirGradient.
 category=Sensors
 url=https://www.airgradient.com/open-airgradient/instructions/
 architectures=*