BR

BigRoomMyS/include/main.h

@@ -4,10 +4,12 @@
 #include <Wire.h>
 #include "MHZ19.h"                                                                                                 
 
+#define DEBUG
 #define MY_DEBUG
 #define MY_RADIO_RF24
 #define MY_RF24_CHANNEL (105)
 #define MY_RF24_PA_LEVEL RF24_PA_MAX
+#define MY_TRANSPORT_WAIT_READY_MS 5000
 //#define MY_REPEATER_FEATURE
 
 #define MY_DEFAULT_ERR_LED_PIN (A3)  // Error led pin
@@ -17,24 +19,32 @@
 #include <MySensors.h>
 #include <SoftwareSerial.h>                               //  Remove if using HardwareSerial or non-uno compatabile device    
 #include <HTU21D.h>
+#include <RunningMedian.h>
+
+void printDeb(String msg);
 
 #define RX_PIN 8
 #define TX_PIN 7
 #define BAUDRATE 9600
 
-#define MOTION (4)
+#define MOTION (3)
+#define PS (4)
 #define LED_WHITE (5)
 #define LED_BLUE (6)
 MHZ19 myMHZ19;
 SoftwareSerial mySerial(RX_PIN, TX_PIN);
 HTU21D myHTU21D(HTU21D_RES_RH10_TEMP13);
+RunningMedian samples = RunningMedian(5 * sizeof(int));
 
-uint8_t periodMinCO2;
-uint8_t periodMotion;
-uint8_t curDelay;
-uint8_t spLight, dbLight;
-uint16_t levelBlue, levelWhite;
+//uint8_t periodMinCO2;
+byte periodMotion;
+int8_t curDelay;
+uint16_t spLight, dbLight;
+uint8_t timeLight;
+byte levelBlue, levelWhite;
 bool move, lightWhite;
 float temp, hum;
+bool bLamp, wLamp;
+uint8_t statLamp;
 
 #endif

BigRoomMyS/platformio.ini

@@ -17,4 +17,5 @@ lib_deps =
   MySensors @ ^2.3.2
   wifwaf/MH-Z19 @ ^1.5.3
   enjoyneering/HTU21D @ ^1.2.1
-  featherfly/SoftwareSerial @ ^1.0
+  featherfly/SoftwareSerial @ ^1.0
+  robtillaart/RunningMedian @ ^0.3.3

BigRoomMyS/src/main.cpp

@@ -12,7 +12,21 @@ MyMessage msgCO2(3, V_VAR1);
 MyMessage msgLight(3, V_VAR2);
 MyMessage msgTimeWork(3, V_VAR3);
 MyMessage msgTimeMotion(3, V_VAR4);
-MyMessage msgPeriod(3, V_VAR5);
+//MyMessage msgPeriodCO2(3, V_VAR5);
+MyMessage msgWLamp(4, V_DIMMER);
+MyMessage msgSPLight(5, V_VAR1);
+MyMessage msgDBLight(5, V_VAR2);
+MyMessage msgWLight(5, V_VAR3);
+MyMessage msgTimeLight(5, V_VAR4);
+
+void before(){
+  pinMode(PS, OUTPUT);
+  digitalWrite(PS, LOW);
+  pinMode(LED_BLUE, OUTPUT);
+  pinMode(LED_WHITE, OUTPUT);
+  digitalWrite(LED_BLUE, HIGH);
+  digitalWrite(LED_WHITE, HIGH);
+}
 
 void setup() {
   pinMode(MOTION, INPUT_PULLUP);
@@ -20,7 +34,7 @@ void setup() {
   myMHZ19.begin(mySerial);                                // *Important, Pass your Stream reference here
   myMHZ19.autoCalibration(false);
 
-  char myVersion[4];          
+  /*char myVersion[4];          
   myMHZ19.getVersion(myVersion);
   Serial.print("\nFirmware Version: ");
   for(byte i = 0; i < 4; i++)
@@ -37,22 +51,38 @@ void setup() {
   Serial.println(myMHZ19.getBackgroundCO2());
   Serial.print("Temperature Cal: ");
   Serial.println(myMHZ19.getTempAdjustment());
-  Serial.print("ABC Status: "); myMHZ19.getABC() ? Serial.println("ON") :  Serial.println("OFF");
-  periodMinCO2 = loadState(0);
-  if(periodMinCO2 == 0) periodMinCO2 = 1;
-  periodMotion = loadState(1);
-  if(periodMotion == 0) periodMotion = 60;
-	spLight = (loadState(2) << 8) + loadState(3);
-	spLight = (loadState(4) << 8) + loadState(5);
-	levelBlue = (loadState(6) << 8) + loadState(7);
-	levelWhite = (loadState(8) << 8) + loadState(9);
+  Serial.print("ABC Status: "); myMHZ19.getABC() ? Serial.println("ON") :  Serial.println("OFF");*/
+  // periodMinCO2 = loadState(0);
+  // sendDataI(msgPeriodCO2, periodMinCO2);
+  // if(periodMinCO2 == 0) periodMinCO2 = 1;
+  periodMotion = loadState(11);
+  sendDataI(msgTimeMotion, periodMotion);
+//  if(periodMotion == 0) periodMotion = 60;
+	spLight = (loadState(12) << 8) + loadState(13);
+  sendDataI(msgSPLight, spLight);
+	dbLight = (loadState(14) << 8) + loadState(15);
+  sendDataI(msgDBLight, dbLight);
+	levelBlue = loadState(6);
+	levelWhite = loadState(7);
+  // timeLight = loadState(8);
+  // sendDataI(msgTimeWork, timeLight);
+  // Serial.print(F("PeriodCO2:"));Serial.println(periodMinCO2);
+  Serial.print(F("PeriodMove:"));Serial.println(periodMotion);
+  Serial.print(F("SPLight:"));Serial.println(spLight);
+  Serial.print(F("DBLight:"));Serial.println(dbLight);
+  Serial.print(F("BLevel:"));Serial.println(levelBlue);
+  Serial.print(F("WLevel:"));Serial.println(levelWhite);
+  //Serial.print(F("TimeLight:"));Serial.println(timeLight);
   myHTU21D.begin();
+  curDelay = -1;
+  wLamp = bLamp = false;
+  statLamp = 0;
 }
 
 void loop() {
   static uint32_t cRun = millis();
   static uint8_t sec = 0;
-  static uint8_t minuts = 0;
+  //static uint8_t minuts = 0;
 
   if(digitalRead(MOTION) > 0){
     if(curDelay  == -1) sendDataB(msgMove, true);
@@ -61,20 +91,43 @@ void loop() {
   }
 
   uint16_t LightLev = analogRead(A0);
-  if (LightLev < spLight && move){
-    analogWrite(LED_BLUE, levelBlue);
+  samples.add(LightLev);
+  LightLev = samples.getMedian();
+  if ((LightLev < spLight) && move && !bLamp){
+    analogWrite(LED_BLUE, (levelBlue) * 2.55);
+    statLamp |= 0x01;
+    bLamp = true;
+    Serial.println(F("BLamp On"));
   }
 	else if((LightLev > (spLight + dbLight)) || (move == 0)){
-    analogWrite(LED_BLUE, 0);
+    //analogWrite(LED_BLUE, 0);
+    digitalWrite(LED_BLUE, LOW);
+    statLamp &= 0xFE;
+    bLamp = false;
   }
 
-  if(lightWhite)
-    analogWrite(LED_WHITE, levelWhite);
-  else
-    analogWrite(LED_WHITE, 0);
+  if(lightWhite && !wLamp){
+    analogWrite(LED_WHITE, (levelWhite) * 2.55);
+    statLamp |= 0x02;
+    wLamp = true;
+    Serial.println(F("WLamp On"));
+  }
+  else if (!lightWhite){
+    //analogWrite(LED_WHITE, 0);
+    digitalWrite(LED_WHITE, LOW);
+    statLamp &= 0xFD;
+    wLamp = false;
+  }
+  if(statLamp > 0) digitalWrite(PS, HIGH);
+  else digitalWrite(PS, LOW);
+
 
   if((cRun + 1000) <= millis()){ //Once per second
     cRun = millis();
+    if(curDelay > -1){
+      Serial.println("ADC: " + String(LightLev) + " MV:" + String(move) + " TMv:" + curDelay + " SL:" + String(statLamp) + " PS:" + digitalRead(PS));
+      Serial.println("SPL: " + String(spLight) + " DBL:" + String(dbLight)+ " BL:" + String(bLamp));
+    }
     sec++;
     if(curDelay > 0) curDelay--;
     if(curDelay == 0){
@@ -85,14 +138,14 @@ void loop() {
     if((sec + 2) % 30 == 0){
       temp = myHTU21D.readTemperature();
       hum = myHTU21D.readCompensatedHumidity();
-      Serial.println("Temp: " + String(temp));
-      Serial.println("Hum: " + String(hum));
+      // Serial.println("Temp: " + String(temp));
+      // Serial.println("Hum: " + String(hum));
     }
     if(sec == 59){
-      minuts++;
+      //minuts++;
       sec = 0;
-    }
-    if(minuts == periodMinCO2){
+    // }
+    // if(minuts == periodMinCO2){
       int CO2;                                        // Buffer for CO2
       CO2 = myMHZ19.getCO2();                         // Request CO2 (as ppm)
 
@@ -102,21 +155,23 @@ void loop() {
           sendDataI(msgCO2, CO2);
           wait(50);
       }
-      else{
-        Serial.println("CO2err:" + String(myMHZ19.errorCode));
-      }
+      // else{
+      //   Serial.println("CO2err:" + String(myMHZ19.errorCode));
+      // }
       if(temp != HTU21D_ERROR){
-        Serial.println("Send");
+        // Serial.println("Send");
 
-        Serial.println("Temp: " + String(temp));
-        Serial.println("Hum: " + String(hum));
+        // Serial.println("Temp: " + String(temp));
+        // Serial.println("Hum: " + String(hum));
         sendDataF(msgTemp, temp);
         wait(50);
         sendDataF(msgHum, hum);
         wait(50);
       }
-      sendDataI(msgTimeWork, cRun);
-      minuts = 0;
+      sendDataF(msgTimeWork, cRun / 60000.0);
+      wait(50);
+      sendDataI(msgLight, LightLev);
+      //minuts = 0;
     }
   }
 }
@@ -128,17 +183,49 @@ void presentation()
 	present(1, S_HUM, F("Humid"));
 	present(2, S_MOTION, F("Motion"));
 	present(3, S_CUSTOM, F("CO2_Light_Time"));
+  present(4, S_DIMMER, F("White Light"));
+  present(5, S_CUSTOM, F("Blue Light SP_DB"));
 }
 
 void receive(const MyMessage &message)
 {
+  // if((message.sensor == 3) && (message.type == V_VAR5)){
+  //   periodMinCO2 = message.getByte();
+  //   saveState(0, periodMinCO2);
+  // }
   if((message.sensor == 3) && (message.type == V_VAR4)){
-    periodMotion = message.getByte();
-    saveState(1, periodMotion);
+    periodMotion = message.getULong();
+    printDeb("PerMot:" + String(periodMotion));
+    saveState(11, periodMotion);
   }
-  if((message.sensor == 3) && (message.type == V_VAR5)){
-    periodMinCO2 = message.getByte();
-    saveState(0, periodMinCO2);
+  if((message.sensor == 4) && (message.type == V_DIMMER)){
+    levelWhite = message.getULong();
+    printDeb("LevelW:" + String(dbLight));
+    saveState(7, levelWhite);
+    if(wLamp) analogWrite(LED_WHITE, (levelWhite) * 2.55);
+  }
+  if((message.sensor == 5) && (message.type == V_VAR3)){
+    levelBlue = message.getULong();
+    printDeb("LevelB:" + String(levelBlue));
+    saveState(6, levelBlue);
+    if(bLamp) analogWrite(LED_BLUE, (levelBlue) * 2.55);
+  }
+  if((message.sensor == 4) && (message.type == V_STATUS)){
+    lightWhite = message.getBool();
+    //saveState(6, lightWhite);
+  }
+  if((message.sensor == 5) && (message.type == V_VAR1)){
+    spLight = message.getULong();
+    printDeb("SPL:" + String(spLight));
+    saveState(12, (spLight >> 8) & 0xFF);
+    saveState(13, spLight & 0xFF);
+
+  }
+  if((message.sensor == 5) && (message.type == V_VAR2)){
+    dbLight = message.getULong();
+    printDeb("DBL:" + String(dbLight));
+    saveState(14, (dbLight >> 8) & 0xFF);
+    saveState(15, dbLight & 0xFF);
   }
 }
 
@@ -189,3 +276,10 @@ void sendDataB(MyMessage msg, bool val)
     }
   }
 }
+
+void printDeb(String msg)
+{
+#ifdef DEBUG
+  Serial.println(msg);
+#endif
+}