Irrigation Controller (up to 16 valves with Shift Registers)



  • @AWI
    While that would be a logical approach, the the dimmer control in Domoticz it's complex and sometimes requires more than one click to activate. In other interfaces (Android, etc) that could be worse, and should change in the future.

    @dbemowsk
    I did not use S_INFO in my sketch, but I managed to use an array for valves configuration and may be pretty interesting if we mix the two of them.

    Note that this is a version 2.0 sketch, and that I removed all the remote management stuff. Due to the flow change in v2, the display menu was so difficult to do.
    Perhaps you can adapt it back and get back to the original idea.

    ///// Mysensors options /////
    //#define MY_DEBUG
    #define MY_RADIO_NRF24
    #define MY_NODE_ID 1 // Having some problems with auto Id on my installation.
    
    #include <Time.h>
    #include <Wire.h>
    #include <SPI.h>
    
    #include <LiquidCrystal_I2C.h>
    #include <MySensors.h>
    
    #define SKETCH_NAME "GardenController"
    #define SKETCH_VERSION "1.0"
    
    /////// Display output options /////
    //#define USING_DISPLAY
    //boolean showTime = true;
    //#ifdef USING_DISPLAY
    //	LiquidCrystal_I2C lcd(0x27, 16, 2);
    //	//#define LCDINIT (DEBUG_PRINTLN("Setting up LCD..."); lcd.init(); lcd.clear(); lcd.backlight();)
    //#else
    //	#define LCDINIT
    //#endif
    
    const int latchPin = 8;
    const int clockPin = 4;
    const int dataPin = 7;
    
    unsigned char bitStatus;
    
    #define ACTIVE_LOW // comment out this line if your relays are active high
    #ifdef ACTIVE_LOW
    	#define ALL_ELEMENTS_OFF 0xFFFF
    	#define myShiftOut (shiftOut(dataPin, clockPin, MSBFIRST, ~bitStatus))
    #else
    	#define ALL_ELEMENTS_OFF 0U
    	#define myShiftOut (shiftOut(dataPin, clockPin, MSBFIRST, bitStatus))
    #endif
    
    boolean clockSetup = false;
    
    ///// Serial interface options /////
    #define DEBUG_ON   // comment out to supress serial monitor output
    #ifdef DEBUG_ON
    	#define DEBUG_PRINT(x)   Serial.print(x)
    	#define DEBUG_PRINTLN(x) Serial.println(x)
    	#define SERIAL_START(x)  Serial.begin(x)
    #else
    	#define DEBUG_PRINT(x)
    	#define DEBUG_PRINTLN(x)
    	#define SERIAL_START(x)
    #endif
    
    ///// Control elements /////
    class myElement {
    public:
    	myElement(char* name, int runningTime, unsigned long Started);
    	char* Name;
    	int RunningTime;
    	unsigned long Started;
    };
    
    myElement::myElement(char* Name, int RunningTime, unsigned long Started = 0)
    {
    	this->Name = Name;
    	this->RunningTime = RunningTime;
    	this->Started = Started;
    };
    
    myElement myElements[] =
    {
    	{ "Irrigation Zone 1", 1 },
    	{ "Irrigation Zone 2", 1 },
    	{ "Pond Pump", 0 },
    	{ "Pond Lights", 0 },
    	{ "Front way lights", 0 },
    	{ "Acc1", 0 },
    	{ "Acc2", 0 },
    	{ "Acc3", 0 },
    };
    
    int NUMBER_OF_ELEMENTS = sizeof(myElements) / sizeof(*myElements);
    
    MyMessage msg1valve(0, V_STATUS);
    
    void setup()
    {
    	SERIAL_START(9600);
    	DEBUG_PRINTLN("Initialising...");
    
    	pinMode(latchPin, OUTPUT);
    	pinMode(clockPin, OUTPUT);
    	pinMode(dataPin, OUTPUT);
    
    	//LCDINIT;
    	//DEBUG_PRINTLN("Setting up LCD..."); lcd.init(); lcd.clear(); lcd.backlight();
    
    	//DEBUG_PRINTLN("Requesting time from Gateway");
    	//requestTime();
    
    	//DEBUG_PRINTLN("Ready!");
    }
    
    void presentation() 
    {
    	sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
    	for (int i = 0; i < NUMBER_OF_ELEMENTS; i++) {
    		myElement Elm = myElements[i];
    		present(i, S_BINARY, Elm.Name);
    		wait(50);
    		DEBUG_PRINT("Presented element (id/name/preset time): "); DEBUG_PRINT(i); DEBUG_PRINT("/");  DEBUG_PRINT(Elm.Name); DEBUG_PRINT("/"); DEBUG_PRINTLN(Elm.RunningTime);
    		request(i, V_STATUS);
    		wait(50);
    	}
    }
    
    void loop()
    {
    	//Check if there are some timer lights to shutdown
    	for (int i = 0; i < NUMBER_OF_ELEMENTS; i++) {
    		//DEBUG_PRINT(myElements[i].Name); DEBUG_PRINT("/"); DEBUG_PRINT(myElements[i].RunningTime); DEBUG_PRINT("/"); DEBUG_PRINTLN(myElements[i].Started);
    		if (myElements[i].Started > 0) {
    			DEBUG_PRINT("Running element ("); DEBUG_PRINT(i); DEBUG_PRINTLN(")");
    			if ((millis() - myElements[i].Started) >= (myElements[i].RunningTime * 60000)){
    				DEBUG_PRINT("ELEMENT TIMEOUT! ("); DEBUG_PRINT(i); DEBUG_PRINTLN(")");
    				updateRelay(i, 0);
    				send(msg1valve.setSensor(i).set(false), false);
    			}
    		}
    		wait(500);
    	}
    }
    
    //void receiveTime(time_t newTime)
    //{
    //	DEBUG_PRINTLN("Received time value, updating...");
    //	int lastSecond = second();
    //	int lastMinute = minute();
    //	int lastHour = hour();
    //	setTime(newTime);
    //	if (((second() != lastSecond) || (minute() != lastMinute) || (hour() != lastHour)) )|| showTime)
    //	{
    //		DEBUG_PRINT("Node's time currently set to: ");
    //		DEBUG_PRINT(day());
    //		DEBUG_PRINT("/");
    //		DEBUG_PRINT(month());
    //		DEBUG_PRINT(F("/"));
    //		DEBUG_PRINT(year());
    //		DEBUG_PRINT(hour() < 10 ? F(" 0") : F(" "));
    //		DEBUG_PRINT(hour());
    //		DEBUG_PRINT(minute() < 10 ? F(":0") : F(":"));
    //		DEBUG_PRINTLN(minute());
    //		showTime = false;
    //	}
    //	else
    //	{
    //		DEBUG_PRINTLN("Node's time did NOT need adjustment greater than 1 second.");
    //	}
    //	clockSetup = true;
    //}
    
    void receive(const MyMessage &message) {
    	// We only expect one type of message from controller. But we better check anyway.
    	switch (message.type)
    	{
    	case V_STATUS:
    		DEBUG_PRINT("Received: Position "); DEBUG_PRINT(message.sensor); DEBUG_PRINT(" Value "); DEBUG_PRINTLN(message.getBool());
    		//DEBUG_PRINT("Before status: "); DEBUG_PRINTLN(bitStatus);
    		updateRelay(message.sensor, message.getBool());
    		break;
    	default:
    		break;
    	}
    }
    
    //void RESET() {
    //	digitalWrite(latchPin, LOW);
    //	shiftOut(dataPin, clockPin, MSBFIRST, ALL_ELEMENTS_OFF);
    //	digitalWrite(latchPin, HIGH);
    //}
    
    void updateRelay(int whichPin, byte whichState) {
    	if (myElements[whichPin].RunningTime > 0){
    		if (whichState == 1){
    			myElements[whichPin].Started = millis();
    			DEBUG_PRINT("Stored start time ("); DEBUG_PRINT(myElements[whichPin].Started); DEBUG_PRINT(") for "); DEBUG_PRINTLN(whichPin);
    		}
    		else
    		{
    			myElements[whichPin].Started = 0;
    			DEBUG_PRINT("Reset start time for "); DEBUG_PRINTLN(whichPin);
    		}
    	}
    
    	digitalWrite(latchPin, LOW);
    	bitWrite(bitStatus, whichPin, whichState);
    	//DEBUG_PRINT("updateRelay: bitStatus -> "); DEBUG_PRINTLN(bitStatus);
    	myShiftOut;
    	digitalWrite(latchPin, HIGH);
    }
    

    As you may noticed, it can control up to 32 valves and you only have to populate the array. It'll be nice to request this data to domoticz and after a timer or received it, store in eeprom and populate the sub-nodes. Then in subsequent starts, boot with the info on eeprom and ask for changes.
    The sensor shuts itself the "valves" and if time is set to zero runs them without limit.

    That's not my irrigation controller, but my whole garden controller. (thaks the op for the idea)



  • @Sergio-Rius Just a few things. I am assuming that the array you are talking about is "myElement". I am fairly new to MySensors and Domoticz. How do you use this array with Domoticz to send the zone times to the controller? It looks like you are setting the valve names and times within the sketch as if they are permanently set on the controller. I am a little confused about the presentation of the S_BINARY, Elm.Name:

            myElement Elm = myElements[i];
            present(i, S_BINARY, Elm.Name);
    

    My understanding is that S_BINARY is just for on/off which I am guessing is the on/off control for the zone. What does the Elm.Name do though? Do yoy have a way to set valve times from within Domoticz?

    I also noticed that you removed the time sync with the receiveTime() function. This tells me that you are not sending the current time to the controller. Any reason for this?

    As for my sketch, I am thinking of another route to go with this where I can send the valve times and names using a single S_INFO sensor. I plan to use some of the information from this forum post: Splitting a string. The idea is to use a separator character such as ":" or "|" to create a pseudo array using a single string. Doing this will eliminate 2 S_INFO sensors for each zone, and also make it easier to configure. I am going to work on this tonight and see where I get with it.



  • @AWI I am still not a big fan of the V_PERCENTAGE route. I like the flexibility of the all zones time as well as the individual zone times. I suppose from a scripting sense it wouldn't matter too much, but I still think it's easier and more flexible the other way.



  • OK, so I've modified my sketch making the change to only use a single S_INFO sensor. The idea is to send a pipe delimited string of all the config data for a zone in the following format:
    {all zone time}|{individual time}|{zone name}

    45|60|Garden/pond 
    

    So all zones call uses 45 minutes, individual zone time is 60 minutes, and the zone name is "Garden/pond"

    Well without further adieu, here is the sketch.

    /*
    MySprinkler for MySensors
    
    Arduino Multi-Zone Sprinkler Control
    
    May 31, 2015
    
    *** Version 2.0
    
    *** Upgraded to http://MySensors.org version 1.4.1
    *** Expanded for up to 16 Valves
    *** Setup for active low relay board or comment out #define ACTIVE_LOW to switch to active high
    *** Switch to bitshift method vs byte arrays
    *** Changed RUN_ALL_ZONES Vera device to 0 (was highest valve)
    *** Added optional LCD display featuring remaining time, date last ran & current time
    *** Features 'raindrop' and 'clock' icons which indicate sensor is updating valve data and clock respectively
    *** Added single pushbutton menu to manually select which program to run (All Zones or a Single Zone)
    *** Added option of naming your Zones programmatically or with Vera (V_VAR3 used to store names)
    
    Utilizing your Vera home automation controller and the MySensors.org gateway you can
    control up to a sixteen zone irrigation system with only three digital pins.  This sketch
    will create NUMBER_OF_VALVES + 1 devices on your Vera controller
    
    This sketch features the following:
    
    * Allows you to cycle through All zones (RUN_ALL_ZONES) or individual zone (RUN_SINGLE_ZONE) control.
    * Use the 0th controller to activate RUN_ALL_ZONES (each zone in numeric sequence 1 to n)
      using Variable1 as the "ON" time in minutes in each of the vera devices created.
    * Use the individual zone controller to activate a single zone.  This feature uses
      Variable2 as the "ON" time for each individual device/zone.
    * Connect according to pinout below and uses Shift Registers as to allow the MySensors
      standard radio configuration and still leave available digital pins
    * Turning on any zone will stop the current process and begin that particular process.
    * Turning off any zone will stop the current process and turn off all zones.
    * To push your new time intervals for your zones, simply change the variable on your Vera and
      your arduino will call to Vera once a minute and update accordingly.  Variables will also be
      requested when the device is first powered on.
    * Pushbutton activation to RUN_ALL_ZONES, RUN_SINGLE_ZONE or halt the current program
    * LED status indicator
    
    PARTS LIST:
    Available from the MySensors store - http://www.mysensors.org/store/
    * Relays (8 channel)
    * Female Pin Header Connector Strip
    * Prototype Universal Printed Circuit Boards (PCB)
    * NRF24L01 Radio
    * Arduino (I used a Pro Mini)
    * FTDI USB to TTL Serial Adapter
    * Capacitors (10uf and .1uf)
    * 3.3v voltage regulator
    * Resistors (270 & 10K)
    * Female Dupont Cables
    * 1602 LCD (with I2C Interface)
    * LED
    * Push button
    * Shift Register (SN74HC595)
    * 2 Pole 5mm Pitch PCB Mount Screw Terminal Block
    * 3 Pole 5mm Pitch PCB Mount Screw Terminal Block
    * 22-24 gauge wire or similar (I used Cat5/Cat6 cable)
    * 18 gauge wire (for relay)
    * Irrigation Power Supply (24-Volt/750 mA Transformer)
    
    
    INSTRUCTIONS:
    
    * A step-by-step setup video is available here: http://youtu.be/l4GPRTsuHkI
    * After assembling your arduino, radio, decoupling capacitors, shift register(s), status LED, pushbutton LCD (I2C connected to
      A4 and A5) and relays, and load the sketch.
    * Following the instructions at https://MySensors.org include the device to your MySensors Gateway.
    * Verify that each new device has a Variable1, Variable2 and Variable3. Populate data accordingly with whole minutes for
      the RUN_ALL_ZONES routine (Variable1) and the RUN_SINGLE_ZONE routines (Variable 2).  The values entered for times may be zero and
      you may use the defaulet zone names by leaving Variable3 blank.
    * Once you have entered values for each zone and each variable, save the settings by pressing the red save button on your Vera.
    * Restart your arduino; verify the settings are loaded into your arduino with the serial monitor; the array will be printed
      on the serial monitor.
    * Your arduino should slow-flash, indicating that it is in ready mode.
    * There are multiple debug serial prints that can be monitored to assure that it is operating properly.
    * ***THIS SHOULD NO LONGER BE NEEDED*** The standard MySensors library now works. https://bitbucket.org/fmalpartida/new-liquidcrystal/downloads for the I2C library, or use yours
    
    Contributed by Jim (BulldogLowell@gmail.com) with much contribution from Pete (pete.will@mysensors.org) and is released to the public domain
    */
    //
    #include <Wire.h>
    #include <Time.h>
    #include <MySensor.h>
    #include <SPI.h>
    #include <LiquidCrystal.h>
    #include <LiquidCrystal_I2C.h>
    
    
    //
    #define NUMBER_OF_VALVES 4  // Change this to set your valve count up to 16.
    #define VALVE_RESET_TIME 7500UL   // Change this (in milliseconds) for the time you need your valves to hydraulically reset and change state
    #define RADIO_ID AUTO  // Change this to fix your Radio ID or use Auto
    
    #define SKETCH_NAME "MySprinkler"
    #define SKETCH_VERSION "2.0"
    //
    #define CHILD_ID_SPRINKLER 0
    #define CHILD_ID_SPRINKLER_ALL 1
    #define CHILD_ID_SPRINKLER_IND 2
    //
    #define ACTIVE_LOW // comment out this line if your relays are active high
    //
    #define DEBUG_ON   // comment out to supress serial monitor output
    //
    #ifdef ACTIVE_LOW
    #define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber-1))
    #define ALL_VALVES_OFF 0xFFFF
    #else
    #define BITSHIFT_VALVE_NUMBER (1U << (valveNumber-1))
    #define ALL_VALVES_OFF 0U
    #endif
    //
    #ifdef DEBUG_ON
    #define DEBUG_PRINT(x)   Serial.print(x)
    #define DEBUG_PRINTLN(x) Serial.println(x)
    #define SERIAL_START(x)  Serial.begin(x)
    #else
    #define DEBUG_PRINT(x)
    #define DEBUG_PRINTLN(x)
    #define SERIAL_START(x)
    #endif
    
    // new V_TEXT variable type (development 20150905)
    const int V_TEXT = 47;
    // new S_INFO sensor type (development 20150905)
    const int S_INFO = 36 ;
    
    //
    typedef enum {
      STAND_BY_ALL_OFF, RUN_SINGLE_ZONE, RUN_ALL_ZONES, CYCLE_COMPLETE, ZONE_SELECT_MENU
    }
    SprinklerStates;
    //
    SprinklerStates state = STAND_BY_ALL_OFF;
    SprinklerStates lastState;
    byte menuState = 0;
    unsigned long menuTimer;
    byte countDownTime = 10;
    //
    int allZoneTime [NUMBER_OF_VALVES + 1];
    int valveSoloTime [NUMBER_OF_VALVES + 1];
    int valveNumber;
    int lastValve;
    unsigned long startMillis;
    const int ledPin = 5;
    const int waterButtonPin = 3;
    boolean buttonPushed = false;
    boolean showTime = true;
    boolean clockUpdating = false;
    boolean recentUpdate = true;
    const char *dayOfWeek[] = {
      "Null", "Sunday ", "Monday ", "Tuesday ", "Wednesday ", "Thursday ", "Friday ", "Saturday "
    };
    // Name your Zones here or use Vera to edit them by adding a name in Variable3...
    String valveNickName[17] = {
      "All Zones", "Zone 1", "Zone 2", "Zone 3", "Zone 4", "Zone 5", "Zone 6", "Zone 7", "Zone 8", "Zone 9", "Zone 10", "Zone 11", "Zone 12", "Zone 13", "Zone 14", "Zone 15", "Zone 16"
    };
    //
    time_t lastTimeRun = 0;
    //Setup Shift Register...
    const int latchPin = 8;
    const int clockPin = 4;
    const int dataPin  = 7;
    //
    byte clock[8] = {0x0, 0xe, 0x15, 0x17, 0x11, 0xe, 0x0}; // fetching time indicator
    byte raindrop[8] = {0x4, 0x4, 0xA, 0xA, 0x11, 0xE, 0x0,}; // fetching Valve Data indicator
    // Set the pins on the I2C chip used for LCD connections:
    //                    addr, en,rw,rs,d4,d5,d6,d7,bl,blpol
    LiquidCrystal_I2C lcd(0x3F, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27
    MySensor gw;
    //
    MyMessage msg1valve(CHILD_ID_SPRINKLER, V_LIGHT);
    MyMessage var1valve(CHILD_ID_SPRINKLER_ALL, V_TEXT);
    MyMessage var2valve(CHILD_ID_SPRINKLER_IND, V_TEXT);
    
    bool receivedInitialValue = false;
    //
    void setup()
    {
      SERIAL_START(115200);
      DEBUG_PRINTLN(F("Initialising..."));
      pinMode(latchPin, OUTPUT);
      pinMode(clockPin, OUTPUT);
      pinMode(dataPin, OUTPUT);
      pinMode(ledPin, OUTPUT);
      pinMode(waterButtonPin, INPUT_PULLUP);
      //pinMode(waterButtonPin, INPUT);
      attachInterrupt(1, PushButton, RISING); //May need to change for your Arduino model
      digitalWrite (ledPin, HIGH);
      DEBUG_PRINTLN(F("Turning All Valves Off..."));
      updateRelays(ALL_VALVES_OFF);
      //delay(5000);
      lcd.begin(16, 2); //(16 characters and 2 line display)
      lcd.clear();
      lcd.backlight();
      lcd.createChar(0, clock);
      lcd.createChar(1, raindrop);
      //
      //check for saved date in EEPROM
      //DEBUG_PRINTLN(F("Checking EEPROM for stored date:"));
      delay(500);
      if (gw.loadState(0) == 0xFF); // EEPROM flag
      {
        //``DEBUG_PRINTLN(F("Retreiving last run time from EEPROM..."));
        for (int i = 0; i < 4 ; i++)
        {
          lastTimeRun = lastTimeRun << 8;
          lastTimeRun = lastTimeRun | gw.loadState(i + 1); // assemble 4 bytes into an ussigned long epoch timestamp
        }
      }
      gw.begin(getVariables, RADIO_ID, false); // Change 'false' to 'true' to create a Radio repeating node
      gw.sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
    
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        gw.present((i * 2), S_LIGHT);
        gw.present(((i * 2) + 1), S_INFO);
        delay(100);
      }
      DEBUG_PRINTLN(F("Presentation Complete"));
      //
      digitalWrite (ledPin, LOW);
      DEBUG_PRINTLN(F("Ready..."));
      //
      lcd.setCursor(0, 0);
      lcd.print(F(" Syncing Time  "));
      lcd.setCursor(15, 0);
      lcd.write(byte(0));
      lcd.setCursor(0, 1);
      int clockCounter = 0;
      while (timeStatus() == timeNotSet && clockCounter < 21)
      {
        gw.process();
        gw.requestTime(receiveTime);
        DEBUG_PRINTLN(F("Requesting time:"));
        delay(1000);
        lcd.print(".");
        clockCounter++;
        if (clockCounter > 16)
        {
          DEBUG_PRINTLN(F("Failed synchronization!"));
          lcd.clear();
          lcd.print(F("  Failed Clock  "));
          lcd.setCursor(0, 1);
          lcd.print(F(" Syncronization "));
          delay(2000);
          break;
        }
      }
      //
      lcd.clear();
      //Update valve data when first powered on
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        lcd.print(F(" Updating  "));
        lcd.setCursor(0, 1);
        lcd.print(F(" Valve Data: "));
        lcd.print(i);
        boolean flashIcon = false;
        DEBUG_PRINT(F("Calling for Valve "));
        DEBUG_PRINT(i);
        DEBUG_PRINTLN(F(" Data..."));
        while (gw.process() == false)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          gw.request((i * 2) + 1, V_TEXT);
          delay(100);
        }
      }
      lcd.clear();
    }
    //
    void loop()
    {
      gw.process();
      updateClock();
      updateDisplay();
      goGetValveTimes();
      //
      if (buttonPushed)
      {
        menuTimer = millis();
        DEBUG_PRINTLN(F("Button Pressed"));
        if (state == STAND_BY_ALL_OFF)
        {
          state = ZONE_SELECT_MENU;
          menuState = 0;
        }
        else if (state == ZONE_SELECT_MENU)
        {
          menuState++;
          if (menuState > NUMBER_OF_VALVES)
          {
            menuState = 0;
          }
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
        buttonPushed = false;
      }
      if (state == STAND_BY_ALL_OFF)
      {
        slowToggleLED ();
        if (state != lastState)
        {
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State all Zones off"));
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            delay(50);
            gw.send(msg1valve.setSensor(i * 2).set(false), false);
          } 
          lcd.clear();
          lcd.setCursor(0,0);
          lcd.print(F("** Irrigation **"));
          lcd.setCursor(0,1);
          lcd.print(F("**   Halted   **"));
          delay(2000);
          lastValve = -1;
        }
      }
      //
      else if (state == RUN_ALL_ZONES)
      {
        if (lastValve != valveNumber)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              gw.send(msg1valve.setSensor(i * 2).set(true), false);
            }
            else
            {
              gw.send(msg1valve.setSensor(i * 2).set(false), false);
            }
          }
        }
        lastValve = valveNumber;
        fastToggleLed();
        if (state != lastState)
        {
          valveNumber = 1;
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed, Running All Zones..."));
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (allZoneTime[valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          DEBUG_PRINTLN(F("Changing Valves..."));
          updateRelays(ALL_VALVES_OFF);
          startMillis = millis();
          valveNumber++;
          if (valveNumber > NUMBER_OF_VALVES)
          {
            state = CYCLE_COMPLETE;
            startMillis = millis();
            lastValve = -1;
            lastTimeRun = now();
            saveDateToEEPROM(lastTimeRun);
            for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
            {
              gw.send(msg1valve.setSensor(i * 2).set(false), false);
            }
            DEBUG_PRINT(F("State = "));
            DEBUG_PRINTLN(state);
          }
        }
      }
      //
      else if (state == RUN_SINGLE_ZONE)
      {
        fastToggleLed();
        if (state != lastState)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              gw.send(msg1valve.setSensor(i * 2).set(true), false);
            }
            else
            {
              gw.send(msg1valve.setSensor(i * 2).set(false), false);
            }
          }
          DEBUG_PRINTLN(F("State Changed, Single Zone Running..."));
          DEBUG_PRINT(F("Zone: "));
          DEBUG_PRINTLN(valveNumber);
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (valveSoloTime [valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          updateRelays(ALL_VALVES_OFF);
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            gw.send(msg1valve.setSensor(i * 2).set(false), false);
          }
          state = CYCLE_COMPLETE;
          startMillis = millis();
          DEBUG_PRINT(F("State = "));
          DEBUG_PRINTLN(state);
        }
        lastTimeRun = now();
      }
      else if (state == CYCLE_COMPLETE)
      {
        if (millis() - startMillis < 30000UL)
        {
          fastToggleLed();
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
      }
      else if (state = ZONE_SELECT_MENU)
      {
        displayMenu();
      }
      lastState = state;
    }
    //
    void displayMenu(void)
    {
      static byte lastMenuState = -1;
      static int lastSecond;
      if (menuState != lastMenuState)
      {
        lcd.clear();
        lcd.setCursor(0, 0);
        lcd.print(valveNickName[menuState]);
        lcd.setCursor(0, 1);
        lcd.print(F("Starting"));
        DEBUG_PRINT(valveNickName[menuState]);
        Serial.print(F(" Starting Shortly"));
      }
      int thisSecond = (millis() - menuTimer) / 1000UL;
      if (thisSecond != lastSecond && thisSecond < 8)
      {
        lcd.print(F("."));
        Serial.print(".");
      }
      lastSecond = thisSecond;
      if (millis() - menuTimer > 10000UL)
      {
        startMillis = millis();
        if (menuState == 0)
        {
          valveNumber = 1;
          state = RUN_ALL_ZONES;
        }
        else
        {
          valveNumber = menuState;
          state = RUN_SINGLE_ZONE;
        }
      }
      else
      {
    
      }
      lastMenuState = menuState;
    }
    //
    void updateRelays(int value)
    {
      digitalWrite(latchPin, LOW);
      shiftOut(dataPin, clockPin, MSBFIRST, highByte(value));
      shiftOut(dataPin, clockPin, MSBFIRST, lowByte(value));
      digitalWrite(latchPin, HIGH);
    }
    //
    void PushButton() //interrupt with debounce
    {
      static unsigned long last_interrupt_time = 0;
      unsigned long interrupt_time = millis();
      if (interrupt_time - last_interrupt_time > 200)
      {
        buttonPushed = true;
      }
      last_interrupt_time = interrupt_time;
    }
    //
    void fastToggleLed()
    {
      static unsigned long fastLedTimer;
      if (millis() - fastLedTimer >= 100UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        fastLedTimer = millis ();
      }
    }
    //
    void slowToggleLED ()
    {
      static unsigned long slowLedTimer;
      if (millis() - slowLedTimer >= 1250UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        slowLedTimer = millis ();
      }
    }
    //
    //void getVariables(const MyMessage &message)
    void getVariables(const MyMessage &message)
    {
      boolean zoneTimeUpdate = false;
      if (message.isAck())
      {
        DEBUG_PRINTLN(F("This is an ack from gateway"));
      }
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        if (message.sensor == (i * 2))
        {
          if (message.type == V_LIGHT)
          {
            int switchState = atoi(message.data);
            if (switchState == 0)
            {
              state = STAND_BY_ALL_OFF;
              DEBUG_PRINTLN(F("Recieved Instruction to Cancel..."));
            }
            else
            {
              if (i == 0)
              {
                state = RUN_ALL_ZONES;
                valveNumber = 1;
                DEBUG_PRINTLN(F("Recieved Instruction to Run All Zones..."));
              }
              else
              {
                state = RUN_SINGLE_ZONE;
                valveNumber = i;
                DEBUG_PRINT(F("Recieved Instruction to Activate Zone: "));
                DEBUG_PRINTLN(i);
              }
            }
            startMillis = millis();
          }
        }
        if (message.sensor == ((i * 2) + 1))
        {
          if (message.type == V_TEXT)
          {
            String valveMessage = String(message.data);
            char* valveData = &valveMessage[0]; //.c_str();
            DEBUG_PRINT(F("Recieved valve data:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(valveMessage);
    
            char* var = strtok(valveData, "|");
    
            int variable1 = atoi(var); // RUN_ALL_ZONES time
            
            if (variable1 != allZoneTime[i])
            {
              allZoneTime[i] = variable1;
    
              zoneTimeUpdate = true;
            }
            
            var = strtok(NULL, "|");
            
            int variable2 = atoi(var);// RUN_SINGLE_ZONE time
            
            if (variable2 != valveSoloTime[i])
            {
              valveSoloTime[i] = variable2;
    
              zoneTimeUpdate = true;
            }
            
            var = strtok(NULL, "|");
            
            String newMessage = String(var);
            if (newMessage.length() == 0) 
            {
              DEBUG_PRINT(F("No Name for "));
              DEBUG_PRINTLN(i);
              break;
            }
            if (newMessage.length() > 16)
            {
              newMessage.substring(0, 16);
            }
            valveNickName[i] = "";
            valveNickName[i] += newMessage;
            DEBUG_PRINT(F("Recieved name "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" called: "));
            DEBUG_PRINTLN(valveNickName[i]);
          }
          receivedInitialValue = true;
        }
      }
      if (zoneTimeUpdate)
      {
        //
        DEBUG_PRINTLN(F("New Zone Times..."));
        for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
        {
          if (i != 0)
          {
            DEBUG_PRINT(F("Zone "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" individual time: "));
            DEBUG_PRINT(valveSoloTime[i]);
            DEBUG_PRINT(F(" group time: "));
            DEBUG_PRINTLN(allZoneTime[i]);
            recentUpdate = true;
          }
        }
      }
      else
      {
        recentUpdate = false;
      }
    }
    //
    void updateDisplay()
    {
      static unsigned long lastUpdateTime;
      static boolean displayToggle = false;
      //static byte toggleCounter = 0;
      static SprinklerStates lastDisplayState;
      if (state != lastDisplayState || millis() - lastUpdateTime >= 3000UL)
      {
        displayToggle = !displayToggle;
        switch (state) {
          case STAND_BY_ALL_OFF:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("  System Ready "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(hourFormat12() < 10 ? F(" ") : F(""));
              lcd.print(hourFormat12());
              lcd.print(minute() < 10 ? F(":0") : F(":"));
              lcd.print(minute());
              lcd.print(isAM() ? F("am") : F("pm"));
              lcd.print(month() < 10 ? F(" 0") : F(" "));
              lcd.print(month());
              lcd.print(day() < 10 ? F("/0") : F("/"));
              lcd.print(day());
              lcd.print(F("/"));
              lcd.print(year() % 100);
            }
            else
            {
              lcd.print(F("  Last Watered "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(dayOfWeek[weekday(lastTimeRun)]);
              lcd.setCursor(11, 1);
              lcd.print(month(lastTimeRun) < 10 ? F(" ") : F(""));
              lcd.print(month(lastTimeRun));
              lcd.print(day(lastTimeRun) < 10 ? F("/0") : F("/"));
              lcd.print(day(lastTimeRun));
            }
            break;
          case RUN_SINGLE_ZONE:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("Single Zone Mode"));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active"));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              if (valveSoloTime[valveNumber] == 0)
              {
                lcd.print(F(" No Valve Time "));
              }
              else
              {
                unsigned long timeRemaining = (valveSoloTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
                lcd.print(timeRemaining / 60 < 10 ? "   0" : "   ");
                lcd.print(timeRemaining / 60);
                lcd.print("min");
                lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
                lcd.print(timeRemaining % 60);
                lcd.print("sec  ");
              }
            }
            break;
          case RUN_ALL_ZONES:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F(" All-Zone  Mode "));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active "));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              int timeRemaining = (allZoneTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
              lcd.print((timeRemaining / 60) < 10 ? "   0" : "   ");
              lcd.print(timeRemaining / 60);
              lcd.print("min");
              lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
              lcd.print(timeRemaining % 60);
              lcd.print("sec  ");
            }
            break;
          case CYCLE_COMPLETE:
            //
            if (displayToggle)
            {
              lcd.setCursor(0, 0);
              lcd.print(F(" Watering Cycle "));
              lcd.setCursor(0, 1);
              lcd.print(F("    Complete    "));
            }
            else
            {
              int totalTimeRan = 0;
              for (int i = 1; i <= NUMBER_OF_VALVES + 1; i++)
              {
                totalTimeRan += allZoneTime[i];
              }
              lcd.setCursor(0, 0);
              lcd.print(F(" Total Time Run "));
              lcd.setCursor(0, 1);
              lcd.print(totalTimeRan < 10 ? "   0" : "   ");
              lcd.print(totalTimeRan);
              lcd.print(" Minutes   ");
            }
        }
        lastUpdateTime = millis();
      }
      lastDisplayState = state;
    }
    void receiveTime(time_t newTime)
    {
      DEBUG_PRINTLN(F("Time value received and updated..."));
      int lastSecond = second();
      int lastMinute = minute();
      int lastHour = hour();
      setTime(newTime);
      if (((second() != lastSecond) || (minute() != lastMinute) || (hour() != lastHour)) || showTime)
      {
        DEBUG_PRINTLN(F("Clock updated...."));
        DEBUG_PRINT(F("Sensor's time currently set to:"));
        DEBUG_PRINT(hourFormat12() < 10 ? F(" 0") : F(" "));
        DEBUG_PRINT(hourFormat12());
        DEBUG_PRINT(minute() < 10 ? F(":0") : F(":"));
        DEBUG_PRINT(minute());
        DEBUG_PRINTLN(isAM() ? F("am") : F("pm"));
        DEBUG_PRINT(month());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINT(day());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINTLN(year());
        DEBUG_PRINTLN(dayOfWeek[weekday()]);
        showTime = false;
      }
      else
      {
        DEBUG_PRINTLN(F("Sensor's time did NOT need adjustment greater than 1 second."));
      }
      clockUpdating = false;
    }
    void fastClear()
    {
      lcd.setCursor(0, 0);
      lcd.print(F("                "));
      lcd.setCursor(0, 1);
      lcd.print(F("                "));
    }
    //
    void updateClock()
    {
      static unsigned long lastVeraGetTime;
      if (millis() - lastVeraGetTime >= 3600000UL) // updates clock time and gets zone times from vera once every hour
      {
        DEBUG_PRINTLN(F("Requesting time and valve data from Gateway..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(0));
        clockUpdating = true;
        gw.requestTime(receiveTime);
        lastVeraGetTime = millis();
      }
    }
    //
    void saveDateToEEPROM(unsigned long theDate)
    {
      DEBUG_PRINTLN(F("Saving Last Run date"));
      if (gw.loadState(0) != 0xFF)
      {
        gw.saveState(0, 0xFF); // EEPROM flag for last date saved stored in EEPROM (location zero)
      }
      //
      for (int i = 1; i < 5; i++)
      {
        gw.saveState(5 - i, byte(theDate >> 8 * (i - 1))); // store epoch datestamp in 4 bytes of EEPROM starting in location one
      }
    }
    //
    void goGetValveTimes()
    {
      static unsigned long valveUpdateTime;
      static byte valveIndex = 1;
      if (millis() - valveUpdateTime >= 300000UL / NUMBER_OF_VALVES)// update each valve once every 5 mins (distributes the traffic)
      {
        DEBUG_PRINTLN(F("Calling for Valve Data..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(1)); //lcd.write(1);
        gw.request((valveIndex * 4) + 1, V_TEXT);
        gw.request((valveIndex * 4) + 2, V_TEXT);
        gw.request((valveIndex * 4) + 3, V_TEXT);
        valveUpdateTime = millis();
        valveIndex++;
        if (valveIndex > NUMBER_OF_VALVES + 1)
        {
          valveIndex = 1;
        }
      }
    }
    

  • Hero Member

    @Sergio-Rius said:

    the dimmer control in Domoticz it's complex and sometimes requires more than one click to activate

    Can you elaborate on this? In my setup the Dimmer is as reliable as any other control. Main limitation is that the standard dimmer can only assume 16 "states"/ values.


  • Hero Member

    @dbemowsk said:

    I am still not a big fan of the V_PERCENTAGE route

    While introducing the V_TEXT/S_INFO type we were aware that this would be a would open up the route to many "non standard" applications. I personally try to keep everything in the standard types or to have a standard defined for it. (like in the V_ORIENTATION suggestion in the Orientation actuator ).
    Sometimes the choice is limited as with the V_PERCENTAGE/ DIMMER implementation in Domoticz as there is no "generic" type to represent just a value (int/float) or date/time (y/m/d hβ“‚s).



  • @dbemowsk said:

    How do you use this array with Domoticz to send the zone times to the controller? It looks like you are setting the valve names and times within the sketch as if they are permanently set on the controller.

    Yes, that was the part where we supposedly had to join our sketches. Just getting all the array contents from an S_INFO. Perhaps using some Json to array conversion. Should be some library for conversions there.

    I am a little confused about the presentation of the S_BINARY, Elm.Name:

            myElement Elm = myElements[i];
            present(i, S_BINARY, Elm.Name);
    

    My understanding is that S_BINARY is just for on/off which I am guessing is the on/off control for the zone. What does the Elm.Name do though?

    Elm.Name assigns a name to the valve. And presents to Domoticz. Still doesn't exists a way to get from domoticz.

    Do yoy have a way to set valve times from within Domoticz?

    Again, still doesn't....

    I also noticed that you removed the time sync with the receiveTime() function. This tells me that you are not sending the current time to the controller. Any reason for this?

    Yes. as I said it was so complicated for me to integrate the "stand-alone functions" that use loop cycles for running the menu. I planned to make dedicated functions for it, but didn't have time.

    As for my sketch, I am thinking of another route to go with this where I can send the valve times and names using a single S_INFO sensor. I plan to use some of the information from this forum post: Splitting a string. The idea is to use a separator character such as ":" or "|" to create a pseudo array using a single string. Doing this will eliminate 2 S_INFO sensors for each zone, and also make it easier to configure. I am going to work on this tonight and see where I get with it.

    And why not using this approach on a single S_INFO, that could feed the array I have in my sketch?



  • @AWI said:

    Can you elaborate on this? In my setup the Dimmer is as reliable as any other control. Main limitation is that the standard dimmer can only assume 16 "states"/ values.

    The dimmer is reliable. I was talking of interface widget being complex. In Domoticz, to activate one zone you would have to first click, and when the popup appears, click again on the blue (sphere?) for it to start.
    In Imperihome, you would have up to 32 rgb dial indicators on your page and still don't get the current set value, and when you set it on, most of times it doesn't respect the current intensity value.

    And that doesn't solve the double timing setup nor the naming.
    I always like to apply the KISS rule to my developments and avoid to depend on other systems. Specially if they don't walk in the same direction. Imagine that in the future the dimmer system changes, for example, into a hue pallete.

    And it's true that mysensors and domoticz is lacking a sensors configuration system.


  • Hero Member

    @Sergio-Rius Think I understand πŸ˜‰ and keep my systems as autonomous and simple as possible.
    The route with S_INFO/V_TEXT won't bring you any luck, regarding the customization to be done in Domoticz to get values in V_TEXT (LUA / JSON).
    btw. Like your sketch πŸ‘



  • @AWI
    You'r right, that's not the best route. But until we have sensors configuration routines... πŸ˜‰
    Will we have? 😬


  • Hero Member

    @Sergio-Rius Don't expect too much in either MySensors/ Domoticz unless you know of a "industry standard" approach which can be implemented with reasonable efforts by the community..



  • @AWI said:

    @Sergio-Rius Don't expect too much in either MySensors/ Domoticz unless you know of a "industry standard" approach which can be implemented with reasonable efforts by the community..

    Are you saying that Domoticz primary focus is to follow existing industry standards? Some times you need to shift away from the standards. Giving users more options will only increase the software's user base. If it were me, I'd rather become the standard than chase it.



  • @Sergio-Rius said:

    And why not using this approach on a single S_INFO, that could feed the array I have in my sketch?

    The main part of my new approach is this bit here:

          if (message.type == V_TEXT)
          {
            String valveMessage = String(message.data);
            char* valveData = &valveMessage[0]; //.c_str();
            DEBUG_PRINT(F("Recieved valve data:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(valveMessage);
    
            char* var = strtok(valveData, "|");
    
            int variable1 = atoi(var); // RUN_ALL_ZONES time
            
            if (variable1 != allZoneTime[i])
            {
              allZoneTime[i] = variable1;
    
              zoneTimeUpdate = true;
            }
            
            var = strtok(NULL, "|");
            
            int variable2 = atoi(var);// RUN_SINGLE_ZONE time
            
            if (variable2 != valveSoloTime[i])
            {
              valveSoloTime[i] = variable2;
    
              zoneTimeUpdate = true;
            }
            
            var = strtok(NULL, "|");
            
            String newMessage = String(var);
            if (newMessage.length() == 0) 
            {
              DEBUG_PRINT(F("No Name for "));
              DEBUG_PRINTLN(i);
              break;
            }
            if (newMessage.length() > 16)
            {
              newMessage.substring(0, 16);
            }
            valveNickName[i] = "";
            valveNickName[i] += newMessage;
            DEBUG_PRINT(F("Recieved name "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" called: "));
            DEBUG_PRINTLN(valveNickName[i]);
          }
          receivedInitialValue = true;
        }
      }
    

    The key is using strtok() to split the incoming string into it's parts. The code that I posted from my tests seems to work, at least from what I have tested so far. It uses one S_INFO sensor for each zone to carry the 3 parts that would be the V_VAR1 - V_VAR3 info in the original sketch. Granted it is only for 1.5, but if you can use anything from my 1.5 sketch in your 2.0 sketch, feel free.



  • Hi first Great projekt. All the things is Just ordred from eBay. But i Wonder what the yellow component is.

    And mayby a tuturial have to make a complete HA kontroller. And have to set i Up. Rigtig now i have a raspberry pi with calaos. But i Dont know have to the it Up with the system.

    Hope there is some help in here πŸ™‚



  • @BulldogLowell

    I love your programming skills, it is superb. Haven gone through your video, l was happy and l needed a modification to your setup. I want to use the arduino to power my irrigation with the following function.

    Arduino with soil moisture sensor check. once the soil is dry, arduino to switch on the electric 1horse power pumping machine and at the same time open the solenoid valve to irrigate at a specified timing.

    As per powering the pumping machine, arduino should check if there is public electricity supply before switching on the pump and if there is no public power supply then it should switch on the power generating set to power the pumping machine and solenoid valve.

    After the sensor has confirmed that the soil is wet and moist, then arduino stops the pumping machine and then closes the electric 220v solenoid valve.

    Second task.

    Overhead Mist Sprayer (uses a different AC 1horse power pump)

    A sensor to check when the sun temperature is 35 or 40 degrees or any programmed temperature and switch on the pumping machine to power the sprayer for a specified timing. Also arduino should should check if there is public electricity supply before switching on the pump and if there is no public power supply then it should switch on the power generating set to power the pumping machine.

    Also irrigation records of time and dates and other function will be added up in the setup.

    I like to know the hardwares l will need for this project, a guide and codes. I appreciate this .

    Thanks


  • Contest Winner

    @wasam

    There are several examples out there (either here or in the Arduino forum) of how to combine sketches for added functionality. Fortunately, you are starting with my code that is already non-blocking and uses little in the way of system resources so it should be straightforward from here.

    The community here (including me) can assist in giving you what you want.

    first thing is the hardware... assuming your using metric means you are 220VAC... you need a person familiar with mains switching to help you out there!



  • @impertus said:

    Hi first Great projekt. All the things is Just ordred from eBay. But i Wonder what the yellow component is.

    And mayby a tuturial have to make a complete HA kontroller. And have to set i Up. Rigtig now i have a raspberry pi with calaos. But i Dont know have to the it Up with the system.

    Hope there is some help in here πŸ™‚
    @BulldogLowell


  • Admin

    @impertus said:

    But i Wonder what the yellow component is.

    Where are you seeing the yellow component? Maybe it's the LED? Can you post a picture?



  • @petewill this One. 0_1476216631327_Screenshot_20161011-220800.png


  • Admin

    @impertus Ah, ok. That is a .1uf capacitor.


  • Contest Winner

    @petewill

    which can be easily substituted by a flux capacitor.

    πŸ˜‰



  • @BulldogLowell Thx πŸ™‚

    Is this the rigth setup.

    Irrigationcontroller <-----> Radio + ethernet (Gateaway) ------> Router + Wifi ------> RaspB with (Calaos HA controller)

    Wifi -----> Calaos Mobile app

    How does the HA controller detects the signal from the irrigation controller? some mystisk setup πŸ™‚ or plug an play..

    What HA will you use (Opensouce)(With mobil function)


  • Admin

    @BulldogLowell Ha! Unfortunately I'm fresh out of those...

    @impertus Both @BulldogLowell and I use Vera as our home automation controller (not open source). My setup looks like: Irrigation Controller <> Ethernet Gateway <> Vera <> Vera Mobile App (usually AutHomationHD). I haven't tested any other controllers with this device but reading up a little in this forum post it appears that some people have got it to work with Domoticz.



  • @petewill yeahh i did a little bit of surfing on the forum. And felt over Domoticz. I see that also can run on RaspBerryPi. So think i will give that at try. It will be nice with a newbie guide how to setup my sensors to Domo. step by step..

    now im waiting for the mailman with all my components πŸ™‚



  • Hi, I've done recently this setup - it works greate with domoticz and Raspberry Pi 0.
    After some tests I findout that when I plug in power - sometimes all, sometimes 3 or 4 relays are turning ON for 1second.
    If that happend my 24V power adapter will be in trash. How to prevent that? Do I need to add something in code (I'm not a programmer)?

    0_1477417969901_photo_2016-10-25_19-50-49.jpg


  • Contest Winner

    @Huczas

    try adding a delay in various places in setup() start with 5 or even 10 seconds.



  • ok, I just get back from Hackerspace. Some people fix this issue:
    SN74HC595 - 13 pin (OE from datascheet) - remove GND and then add pull up 1k resistor and wire it to Arduino pin 6

    and software, added three lines in code:

      const int outputEnablePin = 6;
    
      pinMode(outputEnablePin, OUTPUT);
      digitalWrite (outputEnablePin, LOW);
    
    

    put them after 190 line https://github.com/mysensors/MySensorsArduinoExamples/blob/master/examples/IrrigationController/IrrigationController.ino

    should be like that:

    <some code>
     //Setup Shift Register...
    const int latchPin = 8;
    const int clockPin = 4;
    const int dataPin  = 7;
    const int outputEnablePin = 6;
    //
    byte clock[8] = {0x0, 0xe, 0x15, 0x17, 0x11, 0xe, 0x0}; // fetching time indicator
    byte raindrop[8] = {0x4, 0x4, 0xA, 0xA, 0x11, 0xE, 0x0,}; // fetching Valve Data indicator
    // Set the pins on the I2C chip used for LCD connections:
    //                    addr, en,rw,rs,d4,d5,d6,d7,bl,blpol
    LiquidCrystal_I2C lcd(0x3F, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27
    MySensor gw;
    //
    MyMessage msg1valve(CHILD_ID_SPRINKLER, V_LIGHT);
    MyMessage var1valve(CHILD_ID_SPRINKLER, V_VAR1);
    MyMessage var2valve(CHILD_ID_SPRINKLER, V_VAR2);
    //
    void setup()
    {
      SERIAL_START(115200);
      DEBUG_PRINTLN(F("Initialising..."));
      pinMode(latchPin, OUTPUT);
      pinMode(clockPin, OUTPUT);
      pinMode(dataPin, OUTPUT);
      pinMode(ledPin, OUTPUT);
      pinMode(waterButtonPin, INPUT_PULLUP);
      //pinMode(waterButtonPin, INPUT);
      attachInterrupt(1, PushButton, RISING); //May need to change for your Arduino model
      digitalWrite (ledPin, HIGH);
      DEBUG_PRINTLN(F("Turning All Valves Off..."));
      updateRelays(ALL_VALVES_OFF);
      pinMode(outputEnablePin, OUTPUT);
      digitalWrite (outputEnablePin, LOW);
    <some code>
    

    If somebody can update this project in github and that fritzling draw - would be super nice.


  • Admin

    @Huczas Great, thanks! Have you tested these updates? Also, can you post a link the info on hackerspace?



  • @petewill
    Yes, I've tested this and it's working well!
    Link to the hackerspace - HackerSpace Warsaw, they are on irc - where I talk with them, #hackerspace-pl at freenode servers.


  • Admin

    @Huczas Oh, ok. I thought it was a forum post. Thanks for the update. I will work to get this updated.


  • Admin

    @Huczas the code has been updated in the 2.0 GitHub branch. The wiring diagram has also been updated. Thanks for the fix!



  • @petewill as I sad before - pull up 1k resistor and wire it to Arduino pin 6 - I mean

    pull up - connect to power,
    so should be 1k resistor connected with power source(that make sence with pull up) and also with pin 6. Like below:
    0_1477751319151_Przechwytywanie.PNG


  • Admin

    @Huczas Ah, missed that. I fixed it.



  • I just finished building this but when I go to upload the code to my arduino i get this error

    'byte clock [8]' redeclared as different kind of symbol

    what does this mean ?

    thanks


  • Admin

    @bsivley Are you using the libraries from the MySensors github page (https://github.com/mysensors/MySensorsArduinoExamples/tree/master/libraries)? I just compiled it without any errors. What version of the Arduino IDE are you using? What version of MySensors are you using?



  • @petewill Hi, Please can you advise what version Arduino IDE you are using for this sketch?



  • This post is deleted!


  • Hi, Maybe somebody can help me with this issue? Managed to upload code for irrigation controller with Arduino IDE 1.6.12 but can't pair with Vera controller.


  • Admin

    @Andrej_AB I'm using 1.6.12 but I haven't changed my node to 2.0 yet.
    What is the issue you are having with pairing? Do you see the presentation messages on your gateway? Do you have other nodes successfully paired with your Vera?



  • @petewill Hi, All my other nodes have successfully paired with Vera, but irrigation controller node can't pair with Vera, I have started inclusion mode on Vera, one minute passed 0 devices found.
    Please see attached picture.
    0_1480325874006_Vera inclusion.png

    0_1480325904307_irrigation node.png


  • Admin

    @Andrej_AB It looks like it's communicating ok because it's getting the time. Have you ever had a mysenors node #5 in your Vera previously and deleted it? Could it be that the Vera thinks it's already there? What happens if you clear your eeprom on your irrigation controller then manually assign a different ID and then try to pair it again?



  • @petewill said:

    @Andrej_AB It looks like it's communicating ok because it's getting the time. Have you ever had a mysenors node #5 in your Vera previously and deleted it? Could it be that the Vera thinks it's already there? What happens if you clear your eeprom on your irrigation controller then manually assign a different ID and then try to pair it again?

    Also thinking about it, eprom was cleaned and manually assigned new ID but still can't pair with Vera.
    Today I tried upload sketch from My sensors library 1.5.4 and node was successfully paired with Vera, then tried again last sketch and again can't pair.


  • Admin

    @Andrej_AB Can you post the full log from your sensor? The device is never getting presented in what you've posted so far. I don't have enough time to dig in to the code to know if this will help but can you try moving

    void presentation()  
    { 
      sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        present(i, S_LIGHT);
      }
    }
    

    so it's above

    void setup()
    

    I still haven't updated my irrigation controller to 2.0 yet so I haven't tested any of the code.



  • @petewill Finally managed to pair node with Vera controller, many thanks to @petewill for assistance with this issue.

    //
    #define NUMBER_OF_VALVES 6  // Change this to set your valve count up to 16.
    #define VALVE_RESET_TIME 7500UL   // Change this (in milliseconds) for the time you need your valves to hydraulically reset and change state
    #define RADIO_ID 7  // Set this to fix your Radio ID or use Auto```


  • hey @petewill

    finally i am done making the controller. but when i want to upload the code i get the error..

    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void setup()':
    
    Vanding:112: error: 'lcd' was not declared in this scope
    
       lcd.begin(16, 2); //(16 characters and 2 line display)
    
       ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void loop()':
    
    Vanding:255: error: 'lcd' was not declared in this scope
    
           lcd.clear();
    
           ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void displayMenu()':
    
    Vanding:388: error: 'lcd' was not declared in this scope
    
         lcd.clear();
    
         ^
    
    Vanding:399: error: 'lcd' was not declared in this scope
    
         lcd.print(F("."));
    
         ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void updateDisplay()':
    
    Vanding:589: error: 'lcd' was not declared in this scope
    
             lcd.setCursor(0, 0);
    
             ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void fastClear()':
    
    Vanding:750: error: 'lcd' was not declared in this scope
    
       lcd.setCursor(0, 0);
    
       ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void updateClock()':
    
    Vanding:762: error: 'lcd' was not declared in this scope
    
         lcd.setCursor(15, 0);
    
         ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void goGetValveTimes()':
    
    Vanding:791: error: 'lcd' was not declared in this scope
    
         lcd.setCursor(15, 0);
    
         ^
    
    exit status 1
    'lcd' was not declared in this scope
    

    do you have some help 4 me??



  • @impertus Can you post your entire sketch?



  • @impertus Those errors have to do with this line:

    
    // Set the pins on the I2C chip used for LCD connections:
    //                    addr, en,rw,rs,d4,d5,d6,d7,bl,blpol
    LiquidCrystal_I2C lcd(0x27, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27
    

    This is where the declaration happens. If this is commented or fails, you will get the errors you described. Do you have the correct LCD libraries installed for this?



  • @dbemowsk i just copy/paste from the site.

    witch library should i use?

    i have added mysensors-master to IDE

    edit i could see i have out comment the line. Now i get this error

    Vanding:92: error: 'POSITIVE' was not declared in this scope
    
     LiquidCrystal_I2C lcd(0x27, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27
    
                                                         ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino: In function 'void setup()':
    
    Vanding:116: error: no matching function for call to 'LiquidCrystal_I2C::begin(int, int)'
    
       lcd.begin(16, 2); //(16 characters and 2 line display)
    
                      ^
    
    C:\Users\crame\Desktop\Vanding\Vanding.ino:116:18: note: candidate is:
    
    In file included from C:\Users\crame\Desktop\Vanding\Vanding.ino:1:0:
    
    C:\Program Files (x86)\Arduino\libraries\Arduino-LiquidCrystal-I2C-library-master/LiquidCrystal_I2C.h:76:7: note: void LiquidCrystal_I2C::begin()
    
      void begin();
    
           ^
    
    C:\Program Files (x86)\Arduino\libraries\Arduino-LiquidCrystal-I2C-library-master/LiquidCrystal_I2C.h:76:7: note:   candidate expects 0 arguments, 2 provided
    
    exit status 1
    'POSITIVE' was not declared in this scope
    

    the sketch.

    #include <LiquidCrystal_I2C.h>
    
    
    
    // Enable debug prints
    //#define MY_DEBUG
    
    // Enable and select radio type attached
    #define MY_RADIO_NRF24
    //#define MY_RADIO_RFM69
    
    //#define MY_NODE_ID 1  // Set this to fix your Radio ID or use Auto
    
    #include <Wire.h>
    #include <TimeLib.h>
    #include <SPI.h>
    #include <MySensors.h>
    #include <LiquidCrystal.h>
    #include <LiquidCrystal_I2C.h>
    
    
    #define NUMBER_OF_VALVES 8  // Change this to set your valve count up to 16.
    #define VALVE_RESET_TIME 7500UL   // Change this (in milliseconds) for the time you need your valves to hydraulically reset and change state
    
    #define SKETCH_NAME "MySprinkler"
    #define SKETCH_VERSION "2.0"
    //
    #define CHILD_ID_SPRINKLER 0
    //
    #define ACTIVE_LOW // comment out this line if your relays are active high
    //
    #define DEBUG_ON   // comment out to supress serial monitor output
    //
    #ifdef ACTIVE_LOW
    #define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber-1))
    #define ALL_VALVES_OFF 0xFFFF
    #else
    #define BITSHIFT_VALVE_NUMBER (1U << (valveNumber-1))
    #define ALL_VALVES_OFF 0U
    #endif
    //
    #ifdef DEBUG_ON
    #define DEBUG_PRINT(x)   Serial.print(x)
    #define DEBUG_PRINTLN(x) Serial.println(x)
    #else
    #define DEBUG_PRINT(x)
    #define DEBUG_PRINTLN(x)
    #define SERIAL_START(x)
    #endif
    //
    typedef enum {
      STAND_BY_ALL_OFF, RUN_SINGLE_ZONE, RUN_ALL_ZONES, CYCLE_COMPLETE, ZONE_SELECT_MENU
    }
    SprinklerStates;
    //
    SprinklerStates state = STAND_BY_ALL_OFF;
    SprinklerStates lastState;
    byte menuState = 0;
    unsigned long menuTimer;
    byte countDownTime = 10;
    //
    int allZoneTime [NUMBER_OF_VALVES + 1];
    int valveSoloTime [NUMBER_OF_VALVES + 1];
    int valveNumber;
    int lastValve;
    unsigned long startMillis;
    const int ledPin = 5;
    const int waterButtonPin = 3;
    bool buttonPushed = false;
    bool showTime = true;
    bool clockUpdating = false;
    bool recentUpdate = true;
    const char *dayOfWeek[] = {
      "Null", "Sunday ", "Monday ", "Tuesday ", "Wednesday ", "Thursday ", "Friday ", "Saturday "
    };
    // Name your Zones here or use Vera to edit them by adding a name in Variable3...
    String valveNickName[17] = {
      "All Zones", "Zone 1", "Zone 2", "Zone 3", "Zone 4", "Zone 5", "Zone 6", "Zone 7", "Zone 8", "Zone 9", "Zone 10", "Zone 11", "Zone 12", "Zone 13", "Zone 14", "Zone 15", "Zone 16"
    };
    //
    time_t lastTimeRun = 0;
    //Setup Shift Register...
    const int latchPin = 8;
    const int clockPin = 4;
    const int dataPin  = 7;
    const int outputEnablePin = 6;
    //
    byte clock[8] = {0x0, 0xe, 0x15, 0x17, 0x11, 0xe, 0x0}; // fetching time indicator
    byte raindrop[8] = {0x4, 0x4, 0xA, 0xA, 0x11, 0xE, 0x0,}; // fetching Valve Data indicator
    // Set the pins on the I2C chip used for LCD connections:
    //                    addr, en,rw,rs,d4,d5,d6,d7,bl,blpol
    LiquidCrystal_I2C lcd(0x27, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27
    //
    MyMessage msg1valve(CHILD_ID_SPRINKLER, V_LIGHT);
    MyMessage var1valve(CHILD_ID_SPRINKLER, V_VAR1);
    MyMessage var2valve(CHILD_ID_SPRINKLER, V_VAR2);
    
    bool receivedInitialValue = false;
    //
    void setup()
    {
      DEBUG_PRINTLN(F("Initialising..."));
      pinMode(latchPin, OUTPUT);
      pinMode(clockPin, OUTPUT);
      pinMode(dataPin, OUTPUT);
      pinMode(ledPin, OUTPUT);
      pinMode(outputEnablePin, OUTPUT);
      digitalWrite (outputEnablePin, LOW);
      pinMode(waterButtonPin, INPUT_PULLUP);
      //pinMode(waterButtonPin, INPUT);
      attachInterrupt(digitalPinToInterrupt(waterButtonPin), PushButton, RISING); //May need to change for your Arduino model
      digitalWrite (ledPin, HIGH);
      DEBUG_PRINTLN(F("Turning All Valves Off..."));
      updateRelays(ALL_VALVES_OFF);
      //delay(5000);
      lcd.begin(16, 2); //(16 characters and 2 line display)
      lcd.clear();
      lcd.backlight();
      lcd.createChar(0, clock);
      lcd.createChar(1, raindrop);
      //
      //check for saved date in EEPROM
      DEBUG_PRINTLN(F("Checking EEPROM for stored date:"));
      delay(500);
      if (loadState(0) == 0xFF) // EEPROM flag
      {
        DEBUG_PRINTLN(F("Retreiving last run time from EEPROM..."));
        for (int i = 0; i < 4 ; i++)
        {
          lastTimeRun = lastTimeRun << 8;
          lastTimeRun = lastTimeRun | loadState(i + 1); // assemble 4 bytes into an ussigned long epoch timestamp
        }
      }
    
      DEBUG_PRINTLN(F("Sensor Presentation Complete"));
      //
      digitalWrite (ledPin, LOW);
      DEBUG_PRINTLN(F("Ready..."));
      //
      lcd.setCursor(0, 0);
      lcd.print(F(" Syncing Time  "));
      lcd.setCursor(15, 0);
      lcd.write(byte(0));
      lcd.setCursor(0, 1);
      int clockCounter = 0;
      while (timeStatus() == timeNotSet && clockCounter < 21)
      {
        requestTime();
        DEBUG_PRINTLN(F("Requesting time from Gateway:"));
        wait(1000);
        lcd.print(".");
        clockCounter++;
        if (clockCounter > 16)
        {
          DEBUG_PRINTLN(F("Failed initial clock synchronization!"));
          lcd.clear();
          lcd.print(F("  Failed Clock  "));
          lcd.setCursor(0, 1);
          lcd.print(F(" Syncronization "));
          wait(2000);
          break;
        }
      }
      //
      lcd.clear();
      //Update valve data when first powered on
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        lcd.print(F(" Updating  "));
        lcd.setCursor(0, 1);
        lcd.print(F(" Valve Data: "));
        lcd.print(i);
        bool flashIcon = false;
        DEBUG_PRINT(F("Calling for Valve "));
        DEBUG_PRINT(i);
        DEBUG_PRINTLN(F(" Data..."));
        while (!receivedInitialValue)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          request(i, V_VAR1);
          wait(500);
        }
        receivedInitialValue = false;
        while (!receivedInitialValue)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          request(i, V_VAR2);
          wait(500);
        }
        receivedInitialValue = false;
        while (!receivedInitialValue)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          request(i, V_VAR3);
          wait(500);
        }
      }
      lcd.clear();
    }
    
    
    void presentation()  
    { 
      sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        present(i, S_LIGHT);
      }
    }
    
    //
    void loop()
    {
      updateClock();
      updateDisplay();
      goGetValveTimes();
      //
      if (buttonPushed)
      {
        menuTimer = millis();
        DEBUG_PRINTLN(F("Button Pressed"));
        if (state == STAND_BY_ALL_OFF)
        {
          state = ZONE_SELECT_MENU;
          menuState = 0;
        }
        else if (state == ZONE_SELECT_MENU)
        {
          menuState++;
          if (menuState > NUMBER_OF_VALVES)
          {
            menuState = 0;
          }
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
        buttonPushed = false;
      }
      if (state == STAND_BY_ALL_OFF)
      {
        slowToggleLED ();
        if (state != lastState)
        {
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed... all Zones off"));
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            wait(50);
            send(msg1valve.setSensor(i).set(false), false);
          }
          lcd.clear();
          lcd.setCursor(0,0);
          lcd.print(F("** Irrigation **"));
          lcd.setCursor(0,1);
          lcd.print(F("**   Halted   **"));
          wait(2000);
          lastValve = -1;
        }
      }
      //
      else if (state == RUN_ALL_ZONES)
      {
        if (lastValve != valveNumber)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              send(msg1valve.setSensor(i).set(true), false);
            }
            else
            {
              send(msg1valve.setSensor(i).set(false), false);
            }
          }
        }
        lastValve = valveNumber;
        fastToggleLed();
        if (state != lastState)
        {
          valveNumber = 1;
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed, Running All Zones..."));
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (allZoneTime[valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          DEBUG_PRINTLN(F("Changing Valves..."));
          updateRelays(ALL_VALVES_OFF);
          startMillis = millis();
          valveNumber++;
          if (valveNumber > NUMBER_OF_VALVES)
          {
            state = CYCLE_COMPLETE;
            startMillis = millis();
            lastValve = -1;
            lastTimeRun = now();
            saveDateToEEPROM(lastTimeRun);
            for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
            {
              send(msg1valve.setSensor(i).set(false), false);
            }
            DEBUG_PRINT(F("State = "));
            DEBUG_PRINTLN(state);
          }
        }
      }
      //
      else if (state == RUN_SINGLE_ZONE)
      {
        fastToggleLed();
        if (state != lastState)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              send(msg1valve.setSensor(i).set(true), false);
            }
            else
            {
              send(msg1valve.setSensor(i).set(false), false);
            }
          }
          DEBUG_PRINTLN(F("State Changed, Single Zone Running..."));
          DEBUG_PRINT(F("Zone: "));
          DEBUG_PRINTLN(valveNumber);
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (valveSoloTime [valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          updateRelays(ALL_VALVES_OFF);
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            send(msg1valve.setSensor(i).set(false), false);
          }
          state = CYCLE_COMPLETE;
          startMillis = millis();
          DEBUG_PRINT(F("State = "));
          DEBUG_PRINTLN(state);
        }
        lastTimeRun = now();
      }
      else if (state == CYCLE_COMPLETE)
      {
        if (millis() - startMillis < 30000UL)
        {
          fastToggleLed();
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
      }
      else if (state == ZONE_SELECT_MENU)
      {
        displayMenu();
      }
      lastState = state;
    }
    //
    void displayMenu(void)
    {
      static byte lastMenuState = -1;
      static int lastSecond;
      if (menuState != lastMenuState)
      {
        lcd.clear();
        lcd.setCursor(0, 0);
        lcd.print(valveNickName[menuState]);
        lcd.setCursor(0, 1);
        lcd.print(F("Starting"));
        DEBUG_PRINT(valveNickName[menuState]);
        Serial.print(F(" Starting Shortly"));
      }
      int thisSecond = (millis() - menuTimer) / 1000UL;
      if (thisSecond != lastSecond && thisSecond < 8)
      {
        lcd.print(F("."));
        Serial.print(".");
      }
      lastSecond = thisSecond;
      if (millis() - menuTimer > 10000UL)
      {
        startMillis = millis();
        if (menuState == 0)
        {
          valveNumber = 1;
          state = RUN_ALL_ZONES;
        }
        else
        {
          valveNumber = menuState;
          state = RUN_SINGLE_ZONE;
        }
      }
      else
      {
    
      }
      lastMenuState = menuState;
    }
    //
    void updateRelays(int value)
    {
      digitalWrite(latchPin, LOW);
      shiftOut(dataPin, clockPin, MSBFIRST, highByte(value));
      shiftOut(dataPin, clockPin, MSBFIRST, lowByte(value));
      digitalWrite(latchPin, HIGH);
    }
    //
    void PushButton() //interrupt with debounce
    {
      static unsigned long last_interrupt_time = 0;
      unsigned long interrupt_time = millis();
      if (interrupt_time - last_interrupt_time > 200)
      {
        buttonPushed = true;
      }
      last_interrupt_time = interrupt_time;
    }
    //
    void fastToggleLed()
    {
      static unsigned long fastLedTimer;
      if (millis() - fastLedTimer >= 100UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        fastLedTimer = millis ();
      }
    }
    //
    void slowToggleLED ()
    {
      static unsigned long slowLedTimer;
      if (millis() - slowLedTimer >= 1250UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        slowLedTimer = millis ();
      }
    }
    //
    void receive(const MyMessage &message)
    {
      bool zoneTimeUpdate = false;
      if (message.isAck())
      {
        DEBUG_PRINTLN(F("This is an ack from gateway"));
      }
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        if (message.sensor == i)
        {
          if (message.type == V_LIGHT)
          {
            int switchState = atoi(message.data);
            if (switchState == 0)
            {
              state = STAND_BY_ALL_OFF;
              DEBUG_PRINTLN(F("Recieved Instruction to Cancel..."));
            }
            else
            {
              if (i == 0)
              {
                state = RUN_ALL_ZONES;
                valveNumber = 1;
                DEBUG_PRINTLN(F("Recieved Instruction to Run All Zones..."));
              }
              else
              {
                state = RUN_SINGLE_ZONE;
                valveNumber = i;
                DEBUG_PRINT(F("Recieved Instruction to Activate Zone: "));
                DEBUG_PRINTLN(i);
              }
            }
            startMillis = millis();
          }
          else if (message.type == V_VAR1)
          {
            int variable1 = atoi(message.data);// RUN_ALL_ZONES time
            DEBUG_PRINT(F("Recieved variable1 valve:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(variable1);
            if (variable1 != allZoneTime[i])
            {
              allZoneTime[i] = variable1;
    
              zoneTimeUpdate = true;
            }
            receivedInitialValue = true;
          }
          else if (message.type == V_VAR2)
          {
            int variable2 = atoi(message.data);// RUN_SINGLE_ZONE time
            DEBUG_PRINT(F("Recieved variable2 valve:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(variable2);
            if (variable2 != valveSoloTime[i])
            {
              valveSoloTime[i] = variable2;
              zoneTimeUpdate = true;
            }
            receivedInitialValue = true;
          }
          else if (message.type == V_VAR3)
          {
            String newMessage = String(message.data);
            if (newMessage.length() == 0) 
            {
              DEBUG_PRINT(F("No Name Recieved for zone "));
              DEBUG_PRINTLN(i);
              break;
            }
            if (newMessage.length() > 16)
            {
              newMessage.substring(0, 16);
            }
            valveNickName[i] = "";
            valveNickName[i] += newMessage;
            DEBUG_PRINT(F("Recieved new name for zone "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" and it is now called: "));
            DEBUG_PRINTLN(valveNickName[i]);
          }
          receivedInitialValue = true;
        }
      }
      if (zoneTimeUpdate)
      {
        //
        DEBUG_PRINTLN(F("New Zone Times Recieved..."));
        for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
        {
          if (i != 0)
          {
            DEBUG_PRINT(F("Zone "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" individual time: "));
            DEBUG_PRINT(valveSoloTime[i]);
            DEBUG_PRINT(F(" group time: "));
            DEBUG_PRINTLN(allZoneTime[i]);
            recentUpdate = true;
          }
        }
      }
      else
      {
        recentUpdate = false;
      }
    }
    //
    void updateDisplay()
    {
      static unsigned long lastUpdateTime;
      static bool displayToggle = false;
      //static byte toggleCounter = 0;
      static SprinklerStates lastDisplayState;
      if (state != lastDisplayState || millis() - lastUpdateTime >= 3000UL)
      {
        displayToggle = !displayToggle;
        switch (state) {
          case STAND_BY_ALL_OFF:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("  System Ready "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(hourFormat12() < 10 ? F(" ") : F(""));
              lcd.print(hourFormat12());
              lcd.print(minute() < 10 ? F(":0") : F(":"));
              lcd.print(minute());
              lcd.print(isAM() ? F("am") : F("pm"));
              lcd.print(month() < 10 ? F(" 0") : F(" "));
              lcd.print(month());
              lcd.print(day() < 10 ? F("/0") : F("/"));
              lcd.print(day());
              lcd.print(F("/"));
              lcd.print(year() % 100);
            }
            else
            {
              lcd.print(F("  Last Watered "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(dayOfWeek[weekday(lastTimeRun)]);
              lcd.setCursor(11, 1);
              lcd.print(month(lastTimeRun) < 10 ? F(" ") : F(""));
              lcd.print(month(lastTimeRun));
              lcd.print(day(lastTimeRun) < 10 ? F("/0") : F("/"));
              lcd.print(day(lastTimeRun));
            }
            break;
          case RUN_SINGLE_ZONE:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("Single Zone Mode"));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active"));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              if (valveSoloTime[valveNumber] == 0)
              {
                lcd.print(F(" No Valve Time "));
              }
              else
              {
                unsigned long timeRemaining = (valveSoloTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
                lcd.print(timeRemaining / 60 < 10 ? "   0" : "   ");
                lcd.print(timeRemaining / 60);
                lcd.print("min");
                lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
                lcd.print(timeRemaining % 60);
                lcd.print("sec  ");
              }
            }
            break;
          case RUN_ALL_ZONES:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F(" All-Zone  Mode "));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active "));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              int timeRemaining = (allZoneTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
              lcd.print((timeRemaining / 60) < 10 ? "   0" : "   ");
              lcd.print(timeRemaining / 60);
              lcd.print("min");
              lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
              lcd.print(timeRemaining % 60);
              lcd.print("sec  ");
            }
            break;
          case CYCLE_COMPLETE:
            //
            if (displayToggle)
            {
              lcd.setCursor(0, 0);
              lcd.print(F(" Watering Cycle "));
              lcd.setCursor(0, 1);
              lcd.print(F("    Complete    "));
            }
            else
            {
              int totalTimeRan = 0;
              for (int i = 1; i < NUMBER_OF_VALVES + 1; i++)
              {
                totalTimeRan += allZoneTime[i];
              }
              lcd.setCursor(0, 0);
              lcd.print(F(" Total Time Run "));
              lcd.setCursor(0, 1);
              lcd.print(totalTimeRan < 10 ? "   0" : "   ");
              lcd.print(totalTimeRan);
              lcd.print(" Minutes   ");
            }
          default:
            // what of ZONE_SELECT_MENU?
            break;
        }
        lastUpdateTime = millis();
      }
      lastDisplayState = state;
    }
    void receiveTime(time_t newTime)
    {
      DEBUG_PRINTLN(F("Time value received and updated..."));
      int lastSecond = second();
      int lastMinute = minute();
      int lastHour = hour();
      setTime(newTime);
      if (((second() != lastSecond) || (minute() != lastMinute) || (hour() != lastHour)) || showTime)
      {
        DEBUG_PRINTLN(F("Clock updated...."));
        DEBUG_PRINT(F("Sensor's time currently set to:"));
        DEBUG_PRINT(hourFormat12() < 10 ? F(" 0") : F(" "));
        DEBUG_PRINT(hourFormat12());
        DEBUG_PRINT(minute() < 10 ? F(":0") : F(":"));
        DEBUG_PRINT(minute());
        DEBUG_PRINTLN(isAM() ? F("am") : F("pm"));
        DEBUG_PRINT(month());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINT(day());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINTLN(year());
        DEBUG_PRINTLN(dayOfWeek[weekday()]);
        showTime = false;
      }
      else
      {
        DEBUG_PRINTLN(F("Sensor's time did NOT need adjustment greater than 1 second."));
      }
      clockUpdating = false;
    }
    void fastClear()
    {
      lcd.setCursor(0, 0);
      lcd.print(F("                "));
      lcd.setCursor(0, 1);
      lcd.print(F("                "));
    }
    //
    void updateClock()
    {
      static unsigned long lastVeraGetTime;
      if (millis() - lastVeraGetTime >= 3600000UL) // updates clock time and gets zone times from vera once every hour
      {
        DEBUG_PRINTLN(F("Requesting time and valve data from Gateway..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(0));
        clockUpdating = true;
        requestTime();
        lastVeraGetTime = millis();
      }
    }
    //
    void saveDateToEEPROM(unsigned long theDate)
    {
      DEBUG_PRINTLN(F("Saving Last Run date"));
      if (loadState(0) != 0xFF)
      {
        saveState(0, 0xFF); // EEPROM flag for last date saved stored in EEPROM (location zero)
      }
      //
      for (int i = 1; i < 5; i++)
      {
        saveState(5 - i, byte(theDate >> 8 * (i - 1))); // store epoch datestamp in 4 bytes of EEPROM starting in location one
      }
    }
    //
    void goGetValveTimes()
    {
      static unsigned long valveUpdateTime;
      static byte valveIndex = 1;
      if (millis() - valveUpdateTime >= 300000UL / NUMBER_OF_VALVES)// update each valve once every 5 mins (distributes the traffic)
      {
        DEBUG_PRINTLN(F("Calling for Valve Data..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(1)); //lcd.write(1);
        request(valveIndex, V_VAR1);
        request(valveIndex, V_VAR2);
        request(valveIndex, V_VAR3);
        valveUpdateTime = millis();
        valveIndex++;
        if (valveIndex > NUMBER_OF_VALVES + 1)
        {
          valveIndex = 1;
        }
      }
    }
    


  • Hello,

    Can some one help me with a working sketch for Domoticz.
    I have it a little working, only Domoticz give not the childs.
    I get from the gate way the time and then is searching for the name from the zone.
    If some one can give me a working sketch than i can see what is wrong.

    Thanks in advance Ton



  • This post is deleted!


  • This post is deleted!


  • Hello,
    first off all : thank you for your job.

    I'm trying to make this sketch, but i have some problems.
    Around the line 619 with V_VAR3
    In the sensor console i have this

    0 MCO:BGN:INIT REPEATER,CP=RNNRA--,VER=2.1.0
    3 TSM:INIT
    4 TSF:WUR:MS=0
    11 TSM:INIT:TSP OK
    13 TSF:SID:OK,ID=1
    15 TSM:FPAR
    51 TSF:MSG:SEND,1-1-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    144 TSF:MSG:READ,0-0-1,s=255,c=3,t=8,pt=1,l=1,sg=0:0
    149 TSF:MSG:FPAR OK,ID=0,D=1
    2058 TSM:FPAR:OK
    2059 TSM:ID
    2060 TSM:ID:OK
    2062 TSM:UPL
    2065 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=24,pt=1,l=1,sg=0,ft=0,st=OK:1
    2072 TSF:MSG:READ,0-0-1,s=255,c=3,t=25,pt=1,l=1,sg=0:1
    2077 TSF:MSG:PONG RECV,HP=1
    2080 TSM:UPL:OK
    2081 TSM:READY:ID=1,PAR=0,DIS=1
    2086 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=15,pt=6,l=2,sg=0,ft=0,st=OK:0100
    2096 TSF:MSG:READ,0-0-1,s=255,c=3,t=15,pt=6,l=2,sg=0:0100
    2103 TSF:MSG:SEND,1-1-0-0,s=255,c=0,t=18,pt=0,l=5,sg=0,ft=0,st=OK:2.1.0
    2111 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=6,pt=1,l=1,sg=0,ft=0,st=OK:0
    2129 TSF:MSG:READ,0-0-1,s=255,c=3,t=6,pt=0,l=1,sg=0:M
    2137 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=11,pt=0,l=11,sg=0,ft=0,st=OK:MySprinkler
    2146 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=12,pt=0,l=3,sg=0,ft=0,st=OK:2.0
    2154 TSF:MSG:SEND,1-1-0-0,s=0,c=0,t=3,pt=0,l=0,sg=0,ft=0,st=OK:
    2161 TSF:MSG:SEND,1-1-0-0,s=1,c=0,t=3,pt=0,l=0,sg=0,ft=0,st=OK:
    2168 TSF:MSG:SEND,1-1-0-0,s=2,c=0,t=3,pt=0,l=0,sg=0,ft=0,st=OK:
    2177 TSF:MSG:SEND,1-1-0-0,s=3,c=0,t=3,pt=0,l=0,sg=0,ft=0,st=OK:
    2184 TSF:MSG:SEND,1-1-0-0,s=4,c=0,t=3,pt=0,l=0,sg=0,ft=0,st=OK:
    2190 MCO:REG:REQ
    2193 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=26,pt=1,l=1,sg=0,ft=0,st=OK:2
    2199 TSF:MSG:READ,0-0-1,s=255,c=3,t=27,pt=1,l=1,sg=0:1
    2204 MCO:PIM:NODE REG=1
    2207 MCO:BGN:STP
    Initialisation...
    Mise des Vannes sur Off...
    Checking EEPROM for stored date:
    Retreiving last run time from EEPROM...
    Sensor Presentation Complete
    Ready...
    2864 TSF:MSG:SEND,1-1-0-0,s=255,c=3,t=1,pt=0,l=0,sg=0,ft=0,st=OK:
    Requesting time from Gateway:
    2882 TSF:MSG:READ,0-0-1,s=255,c=3,t=1,pt=0,l=10,sg=0:1484768469
    Time value received and updated...
    Horloge mise à jour....
    Sensor's time currently set to: 07:41pm
    18/1/2017
    Mercredi 
    Calling for Valve 0 Data...
    3902 TSF:MSG:SEND,1-1-0-0,s=0,c=2,t=24,pt=0,l=0,sg=0,ft=0,st=OK:
    3913 TSF:MSG:READ,0-0-1,s=0,c=2,t=24,pt=0,l=0,sg=0:
    Recieved variable1 valve:0 = 0
    4410 TSF:MSG:SEND,1-1-0-0,s=0,c=2,t=25,pt=0,l=0,sg=0,ft=0,st=OK:
    4431 TSF:MSG:READ,0-0-1,s=0,c=2,t=25,pt=0,l=0,sg=0:
    Recieved variable2 valve:0 = 0
    4919 TSF:MSG:SEND,1-1-0-0,s=0,c=2,t=26,pt=0,l=0,sg=0,ft=0,st=OK:
    4939 TSF:MSG:READ,0-0-1,s=0,c=2,t=26,pt=0,l=0,sg=0:
    No Name Recieved for zone 0
    5428 TSF:MSG:SEND,1-1-0-0,s=0,c=2,t=26,pt=0,l=0,sg=0,ft=0,st=OK:
    5447 TSF:MSG:READ,0-0-1,s=0,c=2,t=26,pt=0,l=0,sg=0:
    No Name Recieved for zone 0
    

    In my domoticz GW i have a node MySprinkler 2.0 with 6 childs : 0 to 4 S_LIGHT/S_BINARY, 255 REPREATER

    It's seems that the communication between gateway and sensors failed with V_VAR3, V_VAR1 and V_VAR2 are ok.

    Can somebody help me, please ?

    EDIT : according to the instructions inside this skecth :

    * Verify that each new device has a Variable1, Variable2 and Variable3. Populate data accordingly with whole minutes for
      the RUN_ALL_ZONES routine (Variable1) and the RUN_SINGLE_ZONE routines (Variable 2).  The values entered for times may be zero and
      you may use the defaulet zone names by leaving Variable3 blank.
    

    I can't find any Variable in my domoticz Controller, only S_LIGHT childs of Sprinkler Node :
    0_1484781045078_image.png

    Where is my mistake ?



  • I reply to myself...
    Like Huczas say before, you have to modify this Sketch for Domoticz. 😞

    Domoticz don't receive and manage V_VAR1, V_VAR2, V_VAR3, so you have to fixe them in code.

    But i have another question :
    is there a possibility to declare a supplementary sensor wich can manage this variables ?



  • Hi I looking to do My 1st MySensors Project an hoping to use this one I have a 3.2" Nextion. Will it be hard to use a nextion as a Display. Will there be help so I can get it working as I think the nextion Display will be good .... with weather updates and maybe senses to tell if the plants has to much water or no water. but thats down the trake...



  • Hi, this is my first MySensors project having been inspired to jump in after finding @petewill great Youtube video. Thanks to @BulldogLowell for the code. After much perseverance I have everything working... kinda'.
    My last persistent issue is the system halting zone 2, ie, cycle starts and ~10 seconds in the irrigation is halted. This only happens for Zone 2 (pin 1 on the shift register). This issue only occurs when either starting Zone 2 singularly from the controller or as part of the All Zones from the controller - Zone 1 will complete, Zone 2 will start then stop after ~10 seconds. Zone 2 WILL complete fine when selected manually from the pushbutton. All Zones from the pushbutton or controller will both fail.
    I've checked and re-checked solder joints, wire connections, put the 10k external pullup resistor in and swapped out shift registers with no luck so far.
    Would appreciate any help to resolve. Thanks.

    I am using Domoticz and @Huczas modified sketch.

    /*
    
    Arduino Multi-Zone Sprinkler Control
    
    May 31, 2015
    
    *** Version 2.0
    
    *** Upgraded to http://MySensors.org version 1.4.1
    *** Expanded for up to 16 Valves
    *** Setup for active low relay board or comment out #define ACTIVE_LOW to switch to active high
    *** Switch to bitshift method vs byte arrays
    *** Changed RUN_ALL_ZONES Vera device to 0 (was highest valve)
    *** Added optional LCD display featuring remaining time, date last ran & current time
    *** Features 'raindrop' and 'clock' icons which indicate sensor is updating valve data and clock respectively
    *** Added single pushbutton menu to manually select which program to run (All Zones or a Single Zone)
    *** Added option of naming your Zones programmatically or with Vera (V_VAR3 used to store names)
    
    Utilizing your Vera home automation controller and the MySensors.org gateway you can
    control up to a sixteen zone irrigation system with only three digital pins.  This sketch
    will create NUMBER_OF_VALVES + 1 devices on your Vera controller
    
    This sketch features the following:
    
    * Allows you to cycle through All zones (RUN_ALL_ZONES) or individual zone (RUN_SINGLE_ZONE) control.
    * Use the 0th controller to activate RUN_ALL_ZONES (each zone in numeric sequence 1 to n)
      using Variable1 as the "ON" time in minutes in each of the vera devices created.
    * Use the individual zone controller to activate a single zone.  This feature uses
      Variable2 as the "ON" time for each individual device/zone.
    * Connect according to pinout below and uses Shift Registers as to allow the MySensors
      standard radio configuration and still leave available digital pins
    * Turning on any zone will stop the current process and begin that particular process.
    * Turning off any zone will stop the current process and turn off all zones.
    * To push your new time intervals for your zones, simply change the variable on your Vera and
      your arduino will call to Vera once a minute and update accordingly.  Variables will also be
      requested when the device is first powered on.
    * Pushbutton activation to RUN_ALL_ZONES, RUN_SINGLE_ZONE or halt the current program
    * LED status indicator
    
    PARTS LIST:
    Available from the MySensors store - http://www.mysensors.org/store/
    * Relays (8 channel)
    * Female Pin Header Connector Strip
    * Prototype Universal Printed Circuit Boards (PCB)
    * NRF24L01 Radio
    * Arduino (I used a Pro Mini)
    * FTDI USB to TTL Serial Adapter
    * Capacitors (10uf and .1uf)
    * 3.3v voltage regulator
    * Resistors (270 & 10K)
    * Female Dupont Cables
    * 1602 LCD (with I2C Interface)
    * LED
    * Push button
    * Shift Register (SN74HC595)
    * 2 Pole 5mm Pitch PCB Mount Screw Terminal Block
    * 3 Pole 5mm Pitch PCB Mount Screw Terminal Block
    * 22-24 gauge wire or similar (I used Cat5/Cat6 cable)
    * 18 gauge wire (for relay)
    * Irrigation Power Supply (24-Volt/750 mA Transformer)
    
    
    INSTRUCTIONS:
    
    * A step-by-step setup video is available here: http://youtu.be/l4GPRTsuHkI
    * After assembling your arduino, radio, decoupling capacitors, shift register(s), status LED, pushbutton LCD (I2C connected to
      A4 and A5) and relays, and load the sketch.
    * Following the instructions at https://MySensors.org include the device to your MySensors Gateway.
    * Verify that each new device has a Variable1, Variable2 and Variable3. Populate data accordingly with whole minutes for
      the RUN_ALL_ZONES routine (Variable1) and the RUN_SINGLE_ZONE routines (Variable 2).  The values entered for times may be zero and
      you may use the defaulet zone names by leaving Variable3 blank.
    * Once you have entered values for each zone and each variable, save the settings by pressing the red save button on your Vera.
    * Restart your arduino; verify the settings are loaded into your arduino with the serial monitor; the array will be printed
      on the serial monitor.
    * Your arduino should slow-flash, indicating that it is in ready mode.
    * There are multiple debug serial prints that can be monitored to assure that it is operating properly.
    * ***THIS SHOULD NO LONGER BE NEEDED*** The standard MySensors library now works. https://bitbucket.org/fmalpartida/new-liquidcrystal/downloads for the I2C library, or use yours
    
    Contributed by Jim (BulldogLowell@gmail.com) with much contribution from Pete (pete.will@mysensors.org) and is released to the public domain
    */
    //
    #include <Wire.h>
    #include <Time.h>
    #include <MySensor.h>
    #include <SPI.h>
    #include <LiquidCrystal.h>
    #include <LiquidCrystal_I2C.h>
    //
    #define NUMBER_OF_VALVES 5  // Change this to set your valve count up to 16.
    #define VALVE_RESET_TIME 4500UL   // Change this (in milliseconds) for the time you need your valves to hydraulically reset and change state
    #define RADIO_ID AUTO  // Change this to fix your Radio ID or use Auto
    
    #define SKETCH_NAME "MySprinkler Domoticz"
    #define SKETCH_VERSION "2.0"
    //
    #define CHILD_ID_SPRINKLER 0
    //
    #define ACTIVE_LOW // comment out this line if your relays are active high
    //
    #define DEBUG_ON   // comment out to supress serial monitor output
    //
    #ifdef ACTIVE_LOW
    #define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber-1))
    #define ALL_VALVES_OFF 0xFFFF
    #else
    #define BITSHIFT_VALVE_NUMBER (1U << (valveNumber-1))
    #define ALL_VALVES_OFF 0U
    #endif
    //
    #ifdef DEBUG_ON
    #define DEBUG_PRINT(x)   Serial.print(x)
    #define DEBUG_PRINTLN(x) Serial.println(x)
    #define SERIAL_START(x)  Serial.begin(x)
    #else
    #define DEBUG_PRINT(x)
    #define DEBUG_PRINTLN(x)
    #define SERIAL_START(x)
    #endif
    //
    typedef enum {
      STAND_BY_ALL_OFF, RUN_SINGLE_ZONE, RUN_ALL_ZONES, CYCLE_COMPLETE, ZONE_SELECT_MENU
    }
    SprinklerStates;
    //
    SprinklerStates state = STAND_BY_ALL_OFF;
    SprinklerStates lastState;
    byte menuState = 0;
    unsigned long menuTimer;
    byte countDownTime = 10;
    //
    int allZoneTime [NUMBER_OF_VALVES + 1]= {0, 1, 1, 1, 1, 1};     // Insert values in min, 0 = all zone (always 0) this is a 5 chan relay
    int valveSoloTime [NUMBER_OF_VALVES + 1]= {0, 1, 1, 1, 1, 1};   // Insert values in min, 0 = all zone (always 0) this is a 5 chan relay
    int valveNumber;
    int lastValve;
    unsigned long startMillis;
    const int ledPin = 5;
    const int waterButtonPin = 3;
    boolean buttonPushed = false;
    boolean showTime = true;
    boolean clockUpdating = false;
    boolean recentUpdate = true;
    const char *dayOfWeek[] = {
      "Null", "Sunday ", "Monday ", "Tuesday ", "Wednesday ", "Thursday ", "Friday ", "Saturday "
    };
    // Name your Zones here or use Vera to edit them by adding a name in Variable3...
    String valveNickName[17] = {
      "All Zones", "Zone 1", "Zone 2", "Zone 3", "Zone 4", "Zone 5", "Zone 6", "Zone 7", "Zone 8", "Zone 9", "Zone 10", "Zone 11", "Zone 12", "Zone 13", "Zone 14", "Zone 15", "Zone 16"
    };
    //
    time_t lastTimeRun = 0;
    //Setup Shift Register...
    const int latchPin = 8;
    const int clockPin = 4;
    const int dataPin  = 7;
    //extra for 1k resistor
    //const int outputEnablePin = 6;
    //end extra 1k
    //
    byte clock[8] = {0x0, 0xe, 0x15, 0x17, 0x11, 0xe, 0x0}; // fetching time indicator
    byte raindrop[8] = {0x4, 0x4, 0xA, 0xA, 0x11, 0xE, 0x0,}; // fetching Valve Data indicator
    // Set the pins on the I2C chip used for LCD connections:
    //                    addr, en,rw,rs,d4,d5,d6,d7,bl,blpol
    LiquidCrystal_I2C lcd(0x27, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27
    MySensor gw;
    //
    MyMessage msg1valve(CHILD_ID_SPRINKLER, V_LIGHT);
    MyMessage var1valve(CHILD_ID_SPRINKLER, V_VAR1);
    MyMessage var2valve(CHILD_ID_SPRINKLER, V_VAR2);
    //
    void setup()
    {
      SERIAL_START(115200);
      DEBUG_PRINTLN(F("Initialising..."));
      pinMode(latchPin, OUTPUT);
      pinMode(clockPin, OUTPUT);
      pinMode(dataPin, OUTPUT);
      pinMode(ledPin, OUTPUT);
      //internal pullup use next line
      //pinMode(waterButtonPin, INPUT_PULLUP);
      //external pullup use next line
      pinMode(waterButtonPin, INPUT);
      attachInterrupt(1, PushButton, RISING); //May need to change for your Arduino model
      digitalWrite (ledPin, HIGH);
      DEBUG_PRINTLN(F("Turning All Valves Off..."));
      updateRelays(ALL_VALVES_OFF);
      //extra for 1k resistor
      //pinMode(outputEnablePin, OUTPUT);
      //digitalWrite (outputEnablePin, LOW);
      //end extra 1k  
      //delay(5000);
      //delay(5000);
      lcd.begin(16, 2); //(16 characters and 2 line display)
      lcd.clear();
      lcd.backlight();
      lcd.createChar(0, clock);
      lcd.createChar(1, raindrop);
      //
      //check for saved date in EEPROM
      DEBUG_PRINTLN(F("Checking EEPROM for stored date:"));
      delay(500);
      if (gw.loadState(0) == 0xFF); // EEPROM flag
      {
        DEBUG_PRINTLN(F("Retreiving last run time from EEPROM..."));
        for (int i = 0; i < 4 ; i++)
        {
          lastTimeRun = lastTimeRun << 8;
          lastTimeRun = lastTimeRun | gw.loadState(i + 1); // assemble 4 bytes into an ussigned long epoch timestamp
        }
      }
      gw.begin(getVariables, RADIO_ID, false); // Change 'false' to 'true' to create a Radio repeating node
      gw.sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        gw.present(i, S_LIGHT);
      }
      DEBUG_PRINTLN(F("Sensor Presentation Complete"));
      //
      digitalWrite (ledPin, LOW);
      DEBUG_PRINTLN(F("Ready..."));
      //
      lcd.setCursor(0, 0);
      lcd.print(F(" Syncing Time  "));
      lcd.setCursor(15, 0);
      lcd.write(byte(0));
      lcd.setCursor(0, 1);
      int clockCounter = 0;
      while (timeStatus() == timeNotSet && clockCounter < 21)
      {
        gw.process();
        gw.requestTime(receiveTime);
        DEBUG_PRINTLN(F("Requesting time from Gateway:"));
        delay(1000);
        lcd.print(".");
        clockCounter++;
        if (clockCounter > 16)
        {
          DEBUG_PRINTLN(F("Failed initial clock synchronization!"));
          lcd.clear();
          lcd.print(F("  Failed Clock  "));
          lcd.setCursor(0, 1);
          lcd.print(F(" Syncronization "));
          delay(2000);
          break;
        }
      }
      //
      lcd.clear();
    
      /*
      //Update valve data when first powered on
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        lcd.print(F(" Updating  "));
        lcd.setCursor(0, 1);
        lcd.print(F(" Valve Data: "));
        lcd.print(i);
        boolean flashIcon = false;
        DEBUG_PRINT(F("Calling for Valve "));
        DEBUG_PRINT(i);
        DEBUG_PRINTLN(F(" Data..."));
        while (gw.process() == false)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          gw.request(i, V_VAR1);
          delay(100);
        }
        while (gw.process() == false)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          gw.request(i, V_VAR2);
          delay(100);
        }
        while (gw.process() == false)
        {
          lcd.setCursor(15, 0);
          flashIcon = !flashIcon;
          flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
          gw.request(i, V_VAR3);
          delay(100);
        }
      }
      */
      lcd.clear();
    }
    //
    void loop()
    {
      gw.process();
      updateClock();
      updateDisplay();
      //goGetValveTimes();
      //
      if (buttonPushed)
      {
        menuTimer = millis();
        DEBUG_PRINTLN(F("Button Pressed"));
        if (state == STAND_BY_ALL_OFF)
        {
          state = ZONE_SELECT_MENU;
          menuState = 0;
        }
        else if (state == ZONE_SELECT_MENU)
        {
          menuState++;
          if (menuState > NUMBER_OF_VALVES)
          {
            menuState = 0;
          }
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
        buttonPushed = false;
      }
      if (state == STAND_BY_ALL_OFF)
      {
        slowToggleLED ();
        if (state != lastState)
        {
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed... all Zones off"));
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            delay(50);
            gw.send(msg1valve.setSensor(i).set(false), false);
          }
          lcd.clear();
          lcd.setCursor(0,0);
          lcd.print(F("** Irrigation **"));
          lcd.setCursor(0,1);
          lcd.print(F("**   Halted   **"));
          delay(2000);
          lastValve = -1;
        }
      }
      //
      else if (state == RUN_ALL_ZONES)
      {
        if (lastValve != valveNumber)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              gw.send(msg1valve.setSensor(i).set(true), false);
            }
            else
            {
              gw.send(msg1valve.setSensor(i).set(false), false);
            }
          }
        }
        lastValve = valveNumber;
        fastToggleLed();
        if (state != lastState)
        {
          valveNumber = 1;
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed, Running All Zones..."));
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (allZoneTime[valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          DEBUG_PRINTLN(F("Changing Valves..."));
          updateRelays(ALL_VALVES_OFF);
          startMillis = millis();
          valveNumber++;
          if (valveNumber > NUMBER_OF_VALVES)
          {
            state = CYCLE_COMPLETE;
            startMillis = millis();
            lastValve = -1;
            lastTimeRun = now();
            saveDateToEEPROM(lastTimeRun);
            for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
            {
              gw.send(msg1valve.setSensor(i).set(false), false);
            }
            DEBUG_PRINT(F("State = "));
            DEBUG_PRINTLN(state);
          }
        }
      }
      //
      else if (state == RUN_SINGLE_ZONE)
      {
        fastToggleLed();
        if (state != lastState)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              gw.send(msg1valve.setSensor(i).set(true), false);
            }
            else
            {
              gw.send(msg1valve.setSensor(i).set(false), false);
            }
          }
          DEBUG_PRINTLN(F("State Changed, Single Zone Running..."));
          DEBUG_PRINT(F("Zone: "));
          DEBUG_PRINTLN(valveNumber);
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (valveSoloTime [valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          updateRelays(ALL_VALVES_OFF);
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            gw.send(msg1valve.setSensor(i).set(false), false);
          }
          state = CYCLE_COMPLETE;
          startMillis = millis();
          DEBUG_PRINT(F("State = "));
          DEBUG_PRINTLN(state);
        }
        lastTimeRun = now();
      }
      else if (state == CYCLE_COMPLETE)
      {
        if (millis() - startMillis < 30000UL)
        {
          fastToggleLed();
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
      }
      else if (state = ZONE_SELECT_MENU)
      {
        displayMenu();
      }
      lastState = state;
    }
    //
    void displayMenu(void)
    {
      static byte lastMenuState = -1;
      static int lastSecond;
      if (menuState != lastMenuState)
      {
        lcd.clear();
        lcd.setCursor(0, 0);
        lcd.print(valveNickName[menuState]);
        lcd.setCursor(0, 1);
        lcd.print(F("Starting"));
        DEBUG_PRINT(valveNickName[menuState]);
        Serial.print(F(" Starting Shortly"));
      }
      int thisSecond = (millis() - menuTimer) / 1000UL;
      if (thisSecond != lastSecond && thisSecond < 8)
      {
        lcd.print(F("."));
        Serial.print(".");
      }
      lastSecond = thisSecond;
      if (millis() - menuTimer > 10000UL)
      {
        startMillis = millis();
        if (menuState == 0)
        {
          valveNumber = 1;
          state = RUN_ALL_ZONES;
        }
        else
        {
          valveNumber = menuState;
          state = RUN_SINGLE_ZONE;
        }
      }
      else
      {
    
      }
      lastMenuState = menuState;
    }
    //
    void updateRelays(int value)
    {
      digitalWrite(latchPin, LOW);
      shiftOut(dataPin, clockPin, MSBFIRST, highByte(value));
      shiftOut(dataPin, clockPin, MSBFIRST, lowByte(value));
      digitalWrite(latchPin, HIGH);
    }
    //
    void PushButton() //interrupt with debounce
    {
      static unsigned long last_interrupt_time = 0;
      unsigned long interrupt_time = millis();
      if (interrupt_time - last_interrupt_time > 200)
      {
        buttonPushed = true;
      }
      last_interrupt_time = interrupt_time;
    }
    //
    void fastToggleLed()
    {
      static unsigned long fastLedTimer;
      if (millis() - fastLedTimer >= 100UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        fastLedTimer = millis ();
      }
    }
    //
    void slowToggleLED ()
    {
      static unsigned long slowLedTimer;
      if (millis() - slowLedTimer >= 1250UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        slowLedTimer = millis ();
      }
    }
    //
    void getVariables(const MyMessage &message)
    {
      boolean zoneTimeUpdate = false;
      if (message.isAck())
      {
        DEBUG_PRINTLN(F("This is an ack from gateway"));
      }
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        if (message.sensor == i)
        {
          if (message.type == V_LIGHT)
          {
            int switchState = atoi(message.data);
            if (switchState == 0)
            {
              state = STAND_BY_ALL_OFF;
              DEBUG_PRINTLN(F("Recieved Instruction to Cancel..."));
            }
            else
            {
              if (i == 0)
              {
                state = RUN_ALL_ZONES;
                valveNumber = 1;
                DEBUG_PRINTLN(F("Recieved Instruction to Run All Zones..."));
              }
              else
              {
                state = RUN_SINGLE_ZONE;
                valveNumber = i;
                DEBUG_PRINT(F("Recieved Instruction to Activate Zone: "));
                DEBUG_PRINTLN(i);
              }
            }
            startMillis = millis();
          }
          else if (message.type == V_VAR1)
          {
            int variable1 = atoi(message.data);// RUN_ALL_ZONES time
            DEBUG_PRINT(F("Recieved variable1 valve:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(variable1);
            if (variable1 != allZoneTime[i])
            {
              allZoneTime[i] = variable1;
    
              zoneTimeUpdate = true;
            }
          }
          else if (message.type == V_VAR2)
          {
            int variable2 = atoi(message.data);// RUN_SINGLE_ZONE time
            DEBUG_PRINT(F("Recieved variable2 valve:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(variable2);
            if (variable2 != valveSoloTime[i])
            {
              valveSoloTime[i] = variable2;
              zoneTimeUpdate = true;
            }
          }
          else if (message.type == V_VAR3)
          {
            String newMessage = String(message.data);
            if (newMessage.length() == 0) 
            {
              DEBUG_PRINT(F("No Name Recieved for zone "));
              DEBUG_PRINTLN(i);
              break;
            }
            if (newMessage.length() > 16)
            {
              newMessage.substring(0, 16);
            }
            valveNickName[i] = "";
            valveNickName[i] += newMessage;
            DEBUG_PRINT(F("Recieved new name for zone "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" and it is now called: "));
            DEBUG_PRINTLN(valveNickName[i]);
          }
        }
      }
      if (zoneTimeUpdate)
      {
        //
        DEBUG_PRINTLN(F("New Zone Times Recieved..."));
        for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
        {
          if (i != 0)
          {
            DEBUG_PRINT(F("Zone "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" individual time: "));
            DEBUG_PRINT(valveSoloTime[i]);
            DEBUG_PRINT(F(" group time: "));
            DEBUG_PRINTLN(allZoneTime[i]);
            recentUpdate = true;
          }
        }
      }
      else
      {
        recentUpdate = false;
      }
    }
    //
    void updateDisplay()
    {
      static unsigned long lastUpdateTime;
      static boolean displayToggle = false;
      //static byte toggleCounter = 0;
      static SprinklerStates lastDisplayState;
      if (state != lastDisplayState || millis() - lastUpdateTime >= 3000UL)
      {
        displayToggle = !displayToggle;
        switch (state) {
          case STAND_BY_ALL_OFF:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("  System Ready "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(hourFormat12() < 10 ? F(" ") : F(""));
              lcd.print(hourFormat12());
              lcd.print(minute() < 10 ? F(":0") : F(":"));
              lcd.print(minute());
              lcd.print(isAM() ? F("am") : F("pm"));
              lcd.print(month() < 10 ? F(" 0") : F(" "));
              lcd.print(month());
              lcd.print(day() < 10 ? F("/0") : F("/"));
              lcd.print(day());
              lcd.print(F("/"));
              lcd.print(year() % 100);
            }
            else
            {
              lcd.print(F("  Last Watered "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(dayOfWeek[weekday(lastTimeRun)]);
              lcd.setCursor(11, 1);
              lcd.print(day(lastTimeRun) < 10 ? F("0") : F("/"));
              lcd.print(day(lastTimeRun));
              lcd.print(month(lastTimeRun) < 10 ? F(" ") : F(""));
              lcd.print(month(lastTimeRun));
              
            }
            break;
          case RUN_SINGLE_ZONE:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("Single Zone Mode"));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active"));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              if (valveSoloTime[valveNumber] == 0)
              {
                lcd.print(F(" No Valve Time "));
              }
              else
              {
                unsigned long timeRemaining = (valveSoloTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
                lcd.print(timeRemaining / 60 < 10 ? "   0" : "   ");
                lcd.print(timeRemaining / 60);
                lcd.print("min");
                lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
                lcd.print(timeRemaining % 60);
                lcd.print("sec  ");
              }
            }
            break;
          case RUN_ALL_ZONES:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F(" All-Zone  Mode "));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active "));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              int timeRemaining = (allZoneTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
              lcd.print((timeRemaining / 60) < 10 ? "   0" : "   ");
              lcd.print(timeRemaining / 60);
              lcd.print("min");
              lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
              lcd.print(timeRemaining % 60);
              lcd.print("sec  ");
            }
            break;
          case CYCLE_COMPLETE:
            //
            if (displayToggle)
            {
              lcd.setCursor(0, 0);
              lcd.print(F(" Watering Cycle "));
              lcd.setCursor(0, 1);
              lcd.print(F("    Complete    "));
            }
            else
            {
              int totalTimeRan = 0;
              for (int i = 1; i < NUMBER_OF_VALVES + 1; i++)
              {
                totalTimeRan += allZoneTime[i];
              }
              lcd.setCursor(0, 0);
              lcd.print(F(" Total Time Run "));
              lcd.setCursor(0, 1);
              lcd.print(totalTimeRan < 10 ? "   0" : "   ");
              lcd.print(totalTimeRan);
              lcd.print(" Minutes   ");
            }
        }
        lastUpdateTime = millis();
      }
      lastDisplayState = state;
    }
    void receiveTime(time_t newTime)
    {
      DEBUG_PRINTLN(F("Time value received and updated..."));
      int lastSecond = second();
      int lastMinute = minute();
      int lastHour = hour();
      setTime(newTime);
      if (((second() != lastSecond) || (minute() != lastMinute) || (hour() != lastHour)) || showTime)
      {
        DEBUG_PRINTLN(F("Clock updated...."));
        DEBUG_PRINT(F("Sensor's time currently set to:"));
        DEBUG_PRINT(hourFormat12() < 10 ? F(" 0") : F(" "));
        DEBUG_PRINT(hourFormat12());
        DEBUG_PRINT(minute() < 10 ? F(":0") : F(":"));
        DEBUG_PRINT(minute());
        DEBUG_PRINTLN(isAM() ? F("am") : F("pm"));
        DEBUG_PRINT(month());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINT(day());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINTLN(year());
        DEBUG_PRINTLN(dayOfWeek[weekday()]);
        showTime = false;
      }
      else
      {
        DEBUG_PRINTLN(F("Sensor's time did NOT need adjustment greater than 1 second."));
      }
      clockUpdating = false;
    }
    void fastClear()
    {
      lcd.setCursor(0, 0);
      lcd.print(F("                "));
      lcd.setCursor(0, 1);
      lcd.print(F("                "));
    }
    //
    void updateClock()
    {
      static unsigned long lastVeraGetTime;
      if (millis() - lastVeraGetTime >= 3600000UL) // updates clock time and gets zone times from vera once every hour
      {
        DEBUG_PRINTLN(F("Requesting time and valve data from Gateway..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(0));
        clockUpdating = true;
        gw.requestTime(receiveTime);
        lastVeraGetTime = millis();
      }
    }
    //
    void saveDateToEEPROM(unsigned long theDate)
    {
      DEBUG_PRINTLN(F("Saving Last Run date"));
      if (gw.loadState(0) != 0xFF)
      {
        gw.saveState(0, 0xFF); // EEPROM flag for last date saved stored in EEPROM (location zero)
      }
      //
      for (int i = 1; i < 5; i++)
      {
        gw.saveState(5 - i, byte(theDate >> 8 * (i - 1))); // store epoch datestamp in 4 bytes of EEPROM starting in location one
      }
    }
    //
    void goGetValveTimes()
    {
      static unsigned long valveUpdateTime;
      static byte valveIndex = 1;
      if (millis() - valveUpdateTime >= 300000UL / NUMBER_OF_VALVES)// update each valve once every 5 mins (distributes the traffic)
      {
        DEBUG_PRINTLN(F("Calling for Valve Data..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(1)); //lcd.write(1);
        gw.request(valveIndex, V_VAR1);
        gw.request(valveIndex, V_VAR2);
        gw.request(valveIndex, V_VAR3);
        valveUpdateTime = millis();
        valveIndex++;
        if (valveIndex > NUMBER_OF_VALVES + 1)
        {
          valveIndex = 1;
        }
      }
    }```


  • @Paulb After more troubleshooting I finally narrowed down the problem to an external factor. It seems the old desk lamp I was using on my workbench interfered with the radio signal. It is a fluorescent tube which I understand can be quite 'noisy'. Replicated the conditions several times, stopped using the lamp - presto! everything works as it should.



  • Do anyone has a working solution to connect this project to a main valve who has to open when running the zones ?


  • Mod

    Do you mean that you need to open a main valve while any of the others are open and close it whenever the others are all closed?



  • @gohan exactly what I meant.



  • @pettib I started this project last summer but have not fully finished it. My setup has a pump start relay, which is essentially the same as a main valve control.

    One way to do this is to connect one more data line to a relay and in your sketch, change it so that any time a zone is triggered, turn on the main valve data line. Shouldn't be that difficult to code.

    I was originally planning to do this with hardware where I had diodes from each output of the shift register feeding to one central point which would be the main valve relay, but I had some trouble with that. Could have been that I was doing something wrong. None the less, the approach above should work without issue if programmed correctly.


  • Mod

    You could make a function that recursively checks if any of the valves pin is high it sets the main valve pin HIGH, if all the valve pins are LOW then it sets the main valve pin LOW



  • I have the irrigation controller all setup and working. I have one problem though as soon as I power it up with 5 volts for the pro mini sometimes one sometimes all the relays come on. If I am not home the water runs all day is there a programing change or a wire change I need to make to stop this. I was using the old wire diagram without the pull up on pin 13 of the 74hc I changed to the new version and added the lines off code but it still does not help.


  • Mod

    Are you setting all pins to low during setup?



  • So I had started this build going on a year ago but never finished it. That was before I found the easy newbie boards which is what I plan on using to resurrect this build. My question is, can this be built using a 3.3V pro mini, or should I be using a 5V one. I am just wondering if I need to set up my newbie board with a 3.3V regulator or not. My other question is on the resistors. I have a bunch of 1/8 watt resistors and was wondering if they would work or if I should go to 1/4 watt. I have all of the parts in my parts bin and with the newbie board it shouldn't take long to put it together, just need direction on those couple things.


  • Mod

    It's hard to answer since you aren't providing many details like is it battery powered? What kind of valves are you using? What are you using those resistors for?



  • @gohan Sorry, I am talking about the schematic for the irrigation controller in the build section of the site. That is why I posted the question here.

    One other thing that I just noticed, and I will post this in the easy newbie board thread also for @sundberg84, I noticed that there is a change in the pins that are broken out on the header on the left side of the board. This is the board that I am using for the build, and I was going to point out here that the schematic below shows to connect D7 and D8 to the shift register, but the REV 8 board that I am using does not break out D8. After looking at the site on the new REV 9 boards, which I have a batch of, he doesn't break out D7 or D8.. The wiring of the pins is completely different between the REV 8 and REV 9 boards. The reason I mention this is that I was going to write something up here explaining the build with a newbie board, but I think I will hold off as it might be confusing to many depending what REV of the board people have.

    Another thing that I just notices is on the schematic. I have a copy of the schematic that I printed last year when I started this build. There has since been a change. In the old schematic that I have it shows the output enable (OE) pin of the shift register grounded, where in the one below, it showsit connected to D6 through a 1K resistor. I can understand that the change is to give arduino control to the output enable line, but because in the other schematic it didn't show D6 connected, and I didn't have D8 broken out, I used D6 in it's place. I may need to rethink some of this. In any case, I will need to make some changes to the sketch prior to uploading it.
    0_1496074195604_upload-c4616651-6dc5-47bb-a4c6-ff77a1936257



  • OK, so I have this built this and have it mostly working with my Vera Plus. Below is a link to a video of a problem I am having.

    http://www.dan.bemowski.info/videos/20170601_004213.mp4

    So my sprinkler system has a pump start relay which gets turned on any time a valve is turned on. Because of this I made a slight hardware modification which thus required a software modification. For the hardware, I ended up using relay number 1 of my 8 channel relay board as my pump start relay control. This I have wired to pin A1. Relays 2 through 8 are connected to the shift register on Qb through Qh (outputs 2-8) skipping output 1. Because of this I had to change how the code defined which valve to start on. To do this, I changed the commented lines removing the (-1) on the bit shift. I made the assumption that in code, the relay numbers start with 0.

    #ifdef ACTIVE_LOW
    //#define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber-1))
    #define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber))
    #define ALL_VALVES_OFF 0xFFFF
    #else
    //#define BITSHIFT_VALVE_NUMBER (1U << (valveNumber-1))
    #define BITSHIFT_VALVE_NUMBER (1U << (valveNumber))
    #define ALL_VALVES_OFF 0U
    #endif
    

    Then I needed to define the pump start relay.

    const int pumpStart = A1;
    

    and then in setup I have this:

      pinMode(pumpStart, OUTPUT);
      digitalWrite (pumpStart, HIGH);
    

    Lastly, to operate the pump start relay whenever a zone is triggered, this is the updateRelays() function:

    void updateRelays(int value)
    {
      if (value == ALL_VALVES_OFF) 
      {
        digitalWrite(pumpStart, HIGH);
      }
      else
      {
        digitalWrite(pumpStart, LOW);
      }
      digitalWrite(latchPin, LOW);
      shiftOut(dataPin, clockPin, MSBFIRST, highByte(value));
      shiftOut(dataPin, clockPin, MSBFIRST, lowByte(value));
      digitalWrite(latchPin, HIGH);
    }
    

    All of this seems to work. When I trigger a zone, I see the pump start relay kick on as well as the triggered zone relay. The only problem I have is that the screen keeps cycling valve data: (1-4) on the screen, as can be seen in the video clip.

    Here is my entire modified sketch that I have uploaded:

    /*
    MySprinkler for MySensors
    
    Arduino Multi-Zone Sprinkler Control
    
    May 31, 2015
    
    *** Version 2.0
    
    *** Upgraded to http://MySensors.org version 1.4.1
    *** Expanded for up to 16 Valves
    *** Setup for active low relay board or comment out #define ACTIVE_LOW to switch to active high
    *** Switch to bitshift method vs byte arrays
    *** Changed RUN_ALL_ZONES Vera device to 0 (was highest valve)
    *** Added optional LCD display featuring remaining time, date last ran & current time
    *** Features 'raindrop' and 'clock' icons which indicate sensor is updating valve data and clock respectively
    *** Added single pushbutton menu to manually select which program to run (All Zones or a Single Zone)
    *** Added option of naming your Zones programmatically or with Vera (V_VAR3 used to store names)
    
    Utilizing your Vera home automation controller and the MySensors.org gateway you can
    control up to a sixteen zone irrigation system with only three digital pins.  This sketch
    will create NUMBER_OF_VALVES + 1 devices on your Vera controller
    
    This sketch features the following:
    
    * Allows you to cycle through All zones (RUN_ALL_ZONES) or individual zone (RUN_SINGLE_ZONE) control.
    * Use the 0th controller to activate RUN_ALL_ZONES (each zone in numeric sequence 1 to n)
      using Variable1 as the "ON" time in minutes in each of the vera devices created.
    * Use the individual zone controller to activate a single zone.  This feature uses
      Variable2 as the "ON" time for each individual device/zone.
    * Connect according to pinout below and uses Shift Registers as to allow the MySensors
      standard radio configuration and still leave available digital pins
    * Turning on any zone will stop the current process and begin that particular process.
    * Turning off any zone will stop the current process and turn off all zones.
    * To push your new time intervals for your zones, simply change the variable on your Vera and
      your arduino will call to Vera once a minute and update accordingly.  Variables will also be
      requested when the device is first powered on.
    * Pushbutton activation to RUN_ALL_ZONES, RUN_SINGLE_ZONE or halt the current program
    * LED status indicator
    
    PARTS LIST:
    Available from the MySensors store - http://www.mysensors.org/store/
    * Relays (8 channel)
    * Female Pin Header Connector Strip
    * Prototype Universal Printed Circuit Boards (PCB)
    * NRF24L01 Radio
    * Arduino (I used a Pro Mini)
    * FTDI USB to TTL Serial Adapter
    * Capacitors (10uf and .1uf)
    * 3.3v voltage regulator
    * Resistors (270, 1K & 10K)
    * Female Dupont Cables
    * 1602 LCD (with I2C Interface)
    * LED
    * Push button
    * Shift Register (SN74HC595)
    * 2 Pole 5mm Pitch PCB Mount Screw Terminal Block
    * 3 Pole 5mm Pitch PCB Mount Screw Terminal Block
    * 22-24 gauge wire or similar (I used Cat5/Cat6 cable)
    * 18 gauge wire (for relay)
    * Irrigation Power Supply (24-Volt/750 mA Transformer)
    
    
    INSTRUCTIONS:
    
    * A step-by-step setup video is available here: http://youtu.be/l4GPRTsuHkI
    * After assembling your arduino, radio, decoupling capacitors, shift register(s), status LED, pushbutton LCD (I2C connected to
      A4 and A5) and relays, and load the sketch.
    * Following the instructions at https://MySensors.org include the device to your MySensors Gateway.
    * Verify that each new device has a Variable1, Variable2 and Variable3. Populate data accordingly with whole minutes for
      the RUN_ALL_ZONES routine (Variable1) and the RUN_SINGLE_ZONE routines (Variable 2).  The values entered for times may be zero and
      you may use the defaulet zone names by leaving Variable3 blank.
    * Once you have entered values for each zone and each variable, save the settings by pressing the red save button on your Vera.
    * Restart your arduino; verify the settings are loaded into your arduino with the serial monitor; the array will be printed
      on the serial monitor.
    * Your arduino should slow-flash, indicating that it is in ready mode.
    * There are multiple debug serial prints that can be monitored to assure that it is operating properly.
    * ***THIS SHOULD NO LONGER BE NEEDED*** The standard MySensors library now works. https://bitbucket.org/fmalpartida/new-liquidcrystal/downloads for the I2C library, or use yours
    
    Contributed by Jim (BulldogLowell@gmail.com) with much contribution from Pete (pete.will@mysensors.org) and is released to the public domain
    */
    //
    
    // Enable debug prints
    #define MY_DEBUG
    
    // Enable and select radio type attached
    #define MY_RADIO_NRF24
    //#define MY_RADIO_RFM69
    
    //#define MY_NODE_ID 1  // Set this to fix your Radio ID or use Auto
    
    #include <Wire.h>
    #include <TimeLib.h>
    #include <SPI.h>
    #include <MySensors.h>
    #include <LiquidCrystal.h>
    #include <LiquidCrystal_I2C.h>
    
    
    #define NUMBER_OF_VALVES 4  // Change this to set your valve count up to 16.
    #define VALVE_RESET_TIME 7500UL   // Change this (in milliseconds) for the time you need your valves to hydraulically reset and change state
    #define VALVE_TIMES_RELOAD 300000UL  // Change this (in milliseconds) for how often to update all valves data from the controller (Loops at value/number valves)
                                         // ie: 300000 for 8 valves produces requests 37.5seconds with all valves updated every 5mins 
    
    #define SKETCH_NAME "MySprinkler"
    #define SKETCH_VERSION "2.2"
    //
    #define CHILD_ID_SPRINKLER 0
    //
    #define ACTIVE_LOW // comment out this line if your relays are active high
    //
    #define DEBUG_ON   // comment out to supress serial monitor output
    //
    #ifdef ACTIVE_LOW
    //#define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber-1))
    #define BITSHIFT_VALVE_NUMBER ~(1U << (valveNumber))
    #define ALL_VALVES_OFF 0xFFFF
    #else
    //#define BITSHIFT_VALVE_NUMBER (1U << (valveNumber-1))
    #define BITSHIFT_VALVE_NUMBER (1U << (valveNumber))
    #define ALL_VALVES_OFF 0U
    #endif
    //
    #ifdef DEBUG_ON
    #define DEBUG_PRINT(x)   Serial.print(x)
    #define DEBUG_PRINTLN(x) Serial.println(x)
    #else
    #define DEBUG_PRINT(x)
    #define DEBUG_PRINTLN(x)
    #define SERIAL_START(x)
    #endif
    //
    typedef enum {
      STAND_BY_ALL_OFF, RUN_SINGLE_ZONE, RUN_ALL_ZONES, CYCLE_COMPLETE, ZONE_SELECT_MENU
    }
    SprinklerStates;
    //
    SprinklerStates state = STAND_BY_ALL_OFF;
    SprinklerStates lastState;
    byte menuState = 0;
    unsigned long menuTimer;
    byte countDownTime = 10;
    //
    int allZoneTime [NUMBER_OF_VALVES + 1];
    int valveSoloTime [NUMBER_OF_VALVES + 1];
    int valveNumber;
    int lastValve;
    unsigned long startMillis;
    const int ledPin = 5;
    const int waterButtonPin = 3;
    bool buttonPushed = false;
    bool showTime = true;
    bool clockUpdating = false;
    bool recentUpdate = true;
    int allVars[] = {V_VAR1, V_VAR2, V_VAR3};
    const char *dayOfWeek[] = {
      "Null", "Sunday ", "Monday ", "Tuesday ", "Wednesday ", "Thursday ", "Friday ", "Saturday "
    };
    // Name your Zones here or use Vera to edit them by adding a name in Variable3...
    String valveNickName[17] = {
      "All Zones", "Zone 1", "Zone 2", "Zone 3", "Zone 4", "Zone 5", "Zone 6", "Zone 7", "Zone 8", "Zone 9", "Zone 10", "Zone 11", "Zone 12", "Zone 13", "Zone 14", "Zone 15", "Zone 16"
    };
    //
    time_t lastTimeRun = 0;
    //Setup Shift Register...
    const int latchPin = 6;
    const int clockPin = 4;
    const int dataPin  = 7;
    const int outputEnablePin = A0;
    const int pumpStart = A1;
    //
    byte clock[8] = {0x0, 0xe, 0x15, 0x17, 0x11, 0xe, 0x0}; // fetching time indicator
    byte raindrop[8] = {0x4, 0x4, 0xA, 0xA, 0x11, 0xE, 0x0,}; // fetching Valve Data indicator
    // Set the pins on the I2C chip used for LCD connections:
    //                    addr, en,rw,rs,d4,d5,d6,d7,bl,blpol
    LiquidCrystal_I2C lcd(0x3F, 2, 1, 0, 4, 5, 6, 7, 3, POSITIVE);  // Set the LCD I2C address to 0x27. Mine was actually 0x3F
    //
    MyMessage msg1valve(CHILD_ID_SPRINKLER, V_LIGHT);
    MyMessage var1valve(CHILD_ID_SPRINKLER, V_VAR1);
    MyMessage var2valve(CHILD_ID_SPRINKLER, V_VAR2);
    
    bool receivedInitialValue = false;
    bool inSetup = true;
    //
    void setup()
    {
      DEBUG_PRINTLN(F("Initialising..."));
      pinMode(latchPin, OUTPUT);
      pinMode(clockPin, OUTPUT);
      pinMode(dataPin, OUTPUT);
      pinMode(ledPin, OUTPUT);
      pinMode(outputEnablePin, OUTPUT);
      digitalWrite (outputEnablePin, LOW);
      pinMode(ledPin, OUTPUT);
      pinMode(pumpStart, OUTPUT);
      digitalWrite (pumpStart, HIGH);
      pinMode(waterButtonPin, INPUT_PULLUP);
      //pinMode(waterButtonPin, INPUT);
      attachInterrupt(digitalPinToInterrupt(waterButtonPin), PushButton, RISING); //May need to change for your Arduino model
      digitalWrite (ledPin, HIGH);
      DEBUG_PRINTLN(F("Turning All Valves Off..."));
      updateRelays(ALL_VALVES_OFF);
      //delay(5000);
      lcd.begin(16, 2); //(16 characters and 2 line display)
      lcd.clear();
      lcd.backlight();
      lcd.createChar(0, clock);
      lcd.createChar(1, raindrop);
      //
      //check for saved date in EEPROM
      DEBUG_PRINTLN(F("Checking EEPROM for stored date:"));
      delay(500);
      if (loadState(0) == 0xFF) // EEPROM flag
      {
        DEBUG_PRINTLN(F("Retreiving last run time from EEPROM..."));
        for (int i = 0; i < 4 ; i++)
        {
          lastTimeRun = lastTimeRun << 8;
          lastTimeRun = lastTimeRun | loadState(i + 1); // assemble 4 bytes into an ussigned long epoch timestamp
        }
      }
    
      DEBUG_PRINTLN(F("Sensor Presentation Complete"));
      //
      digitalWrite (ledPin, LOW);
      DEBUG_PRINTLN(F("Ready..."));
      //
      lcd.setCursor(0, 0);
      lcd.print(F(" Syncing Time  "));
      lcd.setCursor(15, 0);
      lcd.write(byte(0));
      lcd.setCursor(0, 1);
      int clockCounter = 0;
      while (timeStatus() == timeNotSet && clockCounter < 21)
      {
        requestTime();
        DEBUG_PRINTLN(F("Requesting time from Gateway:"));
        wait(1000);
        lcd.print(".");
        clockCounter++;
        if (clockCounter > 16)
        {
          DEBUG_PRINTLN(F("Failed initial clock synchronization!"));
          lcd.clear();
          lcd.print(F("  Failed Clock  "));
          lcd.setCursor(0, 1);
          lcd.print(F(" Syncronization "));
          wait(2000);
          break;
        }
      }
      //
      //Update valve data when first powered on 
      for (byte i = 1; i <= NUMBER_OF_VALVES; i++)
      {
        lcd.clear();
        goGetValveTimes();
      }
      lcd.clear();
    }
    
    
    void presentation()  
    { 
      sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        present(i, S_LIGHT);
      }
    }
    
    //
    void loop()
    {
      updateClock();
      updateDisplay();
      goGetValveTimes();
      //
      if (buttonPushed)
      {
        menuTimer = millis();
        DEBUG_PRINTLN(F("Button Pressed"));
        if (state == STAND_BY_ALL_OFF)
        {
          state = ZONE_SELECT_MENU;
          menuState = 0;
        }
        else if (state == ZONE_SELECT_MENU)
        {
          menuState++;
          if (menuState > NUMBER_OF_VALVES)
          {
            menuState = 0;
          }
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
        buttonPushed = false;
      }
      if (state == STAND_BY_ALL_OFF)
      {
        slowToggleLED ();
        if (state != lastState)
        {
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed... all Zones off"));
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            wait(50);
            send(msg1valve.setSensor(i).set(false), false);
          }
          lcd.clear();
          lcd.setCursor(0,0);
          lcd.print(F("** Irrigation **"));
          lcd.setCursor(0,1);
          lcd.print(F("**   Halted   **"));
          wait(2000);
          lastValve = -1;
        }
      }
      //
      else if (state == RUN_ALL_ZONES)
      {
        if (lastValve != valveNumber)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              send(msg1valve.setSensor(i).set(true), false);
            }
            else
            {
              send(msg1valve.setSensor(i).set(false), false);
            }
            wait(50);
          }
        }
        lastValve = valveNumber;
        fastToggleLed();
        if (state != lastState)
        {
          valveNumber = 1;
          updateRelays(ALL_VALVES_OFF);
          DEBUG_PRINTLN(F("State Changed, Running All Zones..."));
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (allZoneTime[valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          DEBUG_PRINTLN(F("Changing Valves..."));
          updateRelays(ALL_VALVES_OFF);
          startMillis = millis();
          valveNumber++;
          if (valveNumber > NUMBER_OF_VALVES)
          {
            state = CYCLE_COMPLETE;
            startMillis = millis();
            lastValve = -1;
            lastTimeRun = now();
            saveDateToEEPROM(lastTimeRun);
            for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
            {
              send(msg1valve.setSensor(i).set(false), false);
              wait(50);
            }
            DEBUG_PRINT(F("State = "));
            DEBUG_PRINTLN(state);
          }
        }
      }
      //
      else if (state == RUN_SINGLE_ZONE)
      {
        fastToggleLed();
        if (state != lastState)
        {
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            if (i == 0 || i == valveNumber)
            {
              send(msg1valve.setSensor(i).set(true), false);
            }
            else
            {
              send(msg1valve.setSensor(i).set(false), false);
            }
            wait(50);
          }
          DEBUG_PRINTLN(F("State Changed, Single Zone Running..."));
          DEBUG_PRINT(F("Zone: "));
          DEBUG_PRINTLN(valveNumber);
        }
        unsigned long nowMillis = millis();
        if (nowMillis - startMillis < VALVE_RESET_TIME)
        {
          updateRelays(ALL_VALVES_OFF);
        }
        else if (nowMillis - startMillis < (valveSoloTime [valveNumber] * 60000UL))
        {
          updateRelays(BITSHIFT_VALVE_NUMBER);
        }
        else
        {
          updateRelays(ALL_VALVES_OFF);
          for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
          {
            send(msg1valve.setSensor(i).set(false), false);
          }
          state = CYCLE_COMPLETE;
          startMillis = millis();
          DEBUG_PRINT(F("State = "));
          DEBUG_PRINTLN(state);
        }
        lastTimeRun = now();
      }
      else if (state == CYCLE_COMPLETE)
      {
        if (millis() - startMillis < 30000UL)
        {
          fastToggleLed();
        }
        else
        {
          state = STAND_BY_ALL_OFF;
        }
      }
      if (state == ZONE_SELECT_MENU)
      {
        displayMenu();
      } 
      else 
      {
        lastState = state;
      }
    }
    //
    void displayMenu(void)
    {
      static byte lastMenuState = -1;
      static int lastSecond;
      if (menuState != lastMenuState)
      {
        lcd.clear();
        lcd.setCursor(0, 0);
        lcd.print(valveNickName[menuState]);
        lcd.setCursor(0, 1);
        lcd.print(F("Starting"));
        DEBUG_PRINT(valveNickName[menuState]);
        Serial.print(F(" Starting Shortly"));
      }
      int thisSecond = (millis() - menuTimer) / 1000UL;
      if (thisSecond != lastSecond && thisSecond < 8)
      {
        lcd.print(F("."));
        Serial.print(".");
      }
      lastSecond = thisSecond;
      if (millis() - menuTimer > 10000UL)
      {
        startMillis = millis();
        if (menuState == 0)
        {
          valveNumber = 1;
          state = RUN_ALL_ZONES;
        }
        else
        {
          valveNumber = menuState;
          state = RUN_SINGLE_ZONE;
        }
      }
      else
      {
    
      }
      lastMenuState = menuState;
    }
    //
    void updateRelays(int value)
    {
      if (value == ALL_VALVES_OFF) 
      {
        digitalWrite(pumpStart, HIGH);
      }
      else
      {
        digitalWrite(pumpStart, LOW);
      }
      digitalWrite(latchPin, LOW);
      shiftOut(dataPin, clockPin, MSBFIRST, highByte(value));
      shiftOut(dataPin, clockPin, MSBFIRST, lowByte(value));
      digitalWrite(latchPin, HIGH);
    }
    //
    void PushButton() //interrupt with debounce
    {
      static unsigned long last_interrupt_time = 0;
      unsigned long interrupt_time = millis();
      if (interrupt_time - last_interrupt_time > 200)
      {
        buttonPushed = true;
      }
      last_interrupt_time = interrupt_time;
    }
    //
    void fastToggleLed()
    {
      static unsigned long fastLedTimer;
      if (millis() - fastLedTimer >= 100UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        fastLedTimer = millis ();
      }
    }
    //
    void slowToggleLED ()
    {
      static unsigned long slowLedTimer;
      if (millis() - slowLedTimer >= 1250UL)
      {
        digitalWrite(ledPin, !digitalRead(ledPin));
        slowLedTimer = millis ();
      }
    }
    //
    void receive(const MyMessage &message)
    {
      bool zoneTimeUpdate = false;
      if (message.isAck())
      {
        DEBUG_PRINTLN(F("This is an ack from gateway"));
      }
      for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
      {
        if (message.sensor == i)
        {
          if (message.type == V_LIGHT)
          {
            int switchState = atoi(message.data);
            if (switchState == 0)
            {
              state = STAND_BY_ALL_OFF;
              DEBUG_PRINTLN(F("Recieved Instruction to Cancel..."));
            }
            else
            {
              if (i == 0)
              {
                state = RUN_ALL_ZONES;
                valveNumber = 1;
                DEBUG_PRINTLN(F("Recieved Instruction to Run All Zones..."));
              }
              else
              {
                state = RUN_SINGLE_ZONE;
                valveNumber = i;
                DEBUG_PRINT(F("Recieved Instruction to Activate Zone: "));
                DEBUG_PRINTLN(i);
              }
            }
            startMillis = millis();
          }
          else if (message.type == V_VAR1)
          {
            int variable1 = atoi(message.data);// RUN_ALL_ZONES time
            DEBUG_PRINT(F("Recieved variable1 valve:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(variable1);
            if (variable1 != allZoneTime[i])
            {
              allZoneTime[i] = variable1;
    
              zoneTimeUpdate = true;
            }
            receivedInitialValue = true;
          }
          else if (message.type == V_VAR2)
          {
            int variable2 = atoi(message.data);// RUN_SINGLE_ZONE time
            DEBUG_PRINT(F("Recieved variable2 valve:"));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(variable2);
            if (variable2 != valveSoloTime[i])
            {
              valveSoloTime[i] = variable2;
              zoneTimeUpdate = true;
            }
            receivedInitialValue = true;
          }
          else if (message.type == V_VAR3)
          {
            String newMessage = String(message.data);
            if (newMessage.length() == 0) 
            {
              DEBUG_PRINT(F("No Name Recieved for zone "));
              DEBUG_PRINTLN(i);
              break;
            }
            if (newMessage.length() > 16)
            {
              newMessage.substring(0, 16);
            }
            valveNickName[i] = "";
            valveNickName[i] += newMessage;
            DEBUG_PRINT(F("Recieved variable3 valve: "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" = "));
            DEBUG_PRINTLN(valveNickName[i]);
          }
          receivedInitialValue = true;
        }
      }
      if (zoneTimeUpdate)
      {
        //
        DEBUG_PRINTLN(F("New Zone Times Recieved..."));
        for (byte i = 0; i <= NUMBER_OF_VALVES; i++)
        {
          if (i != 0)
          {
            DEBUG_PRINT(F("Zone "));
            DEBUG_PRINT(i);
            DEBUG_PRINT(F(" individual time: "));
            DEBUG_PRINT(valveSoloTime[i]);
            DEBUG_PRINT(F(" group time: "));
            DEBUG_PRINT(allZoneTime[i]);
            DEBUG_PRINT(F(" name: "));
            DEBUG_PRINTLN(valveNickName[i]);
            recentUpdate = true;
          }
        }
      }
      else
      {
        recentUpdate = false;
      }
    }
    //
    void updateDisplay()
    {
      static unsigned long lastUpdateTime;
      static bool displayToggle = false;
      //static byte toggleCounter = 0;
      static SprinklerStates lastDisplayState;
      if (state != lastDisplayState || millis() - lastUpdateTime >= 3000UL)
      {
        displayToggle = !displayToggle;
        switch (state) {
          case STAND_BY_ALL_OFF:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("  System Ready "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(hourFormat12() < 10 ? F(" ") : F(""));
              lcd.print(hourFormat12());
              lcd.print(minute() < 10 ? F(":0") : F(":"));
              lcd.print(minute());
              lcd.print(isAM() ? F("am") : F("pm"));
              lcd.print(month() < 10 ? F(" 0") : F(" "));
              lcd.print(month());
              lcd.print(day() < 10 ? F("/0") : F("/"));
              lcd.print(day());
              lcd.print(F("/"));
              lcd.print(year() % 100);
            }
            else
            {
              lcd.print(F("  Last Watered "));
              if (clockUpdating)
              {
                lcd.setCursor(15, 0);
                lcd.write(byte(0));
              }
              lcd.setCursor(0, 1);
              lcd.print(dayOfWeek[weekday(lastTimeRun)]);
              lcd.setCursor(11, 1);
              lcd.print(month(lastTimeRun) < 10 ? F(" ") : F(""));
              lcd.print(month(lastTimeRun));
              lcd.print(day(lastTimeRun) < 10 ? F("/0") : F("/"));
              lcd.print(day(lastTimeRun));
            }
            break;
          case RUN_SINGLE_ZONE:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F("Single Zone Mode"));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active"));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              if (valveSoloTime[valveNumber] == 0)
              {
                lcd.print(F(" No Valve Time "));
              }
              else
              {
                unsigned long timeRemaining = (valveSoloTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
                lcd.print(timeRemaining / 60 < 10 ? "   0" : "   ");
                lcd.print(timeRemaining / 60);
                lcd.print("min");
                lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
                lcd.print(timeRemaining % 60);
                lcd.print("sec  ");
              }
            }
            break;
          case RUN_ALL_ZONES:
            //
            fastClear();
            lcd.setCursor(0, 0);
            if (displayToggle)
            {
              lcd.print(F(" All-Zone  Mode "));
              lcd.setCursor(0, 1);
              lcd.print(F(" Zone:"));
              if (valveNumber < 10) lcd.print(F("0"));
              lcd.print(valveNumber);
              lcd.print(F(" Active "));
            }
            else
            {
              lcd.print(F(" Time Remaining "));
              lcd.setCursor(0, 1);
              int timeRemaining = (allZoneTime[valveNumber] * 60) - ((millis() - startMillis) / 1000);
              lcd.print((timeRemaining / 60) < 10 ? "   0" : "   ");
              lcd.print(timeRemaining / 60);
              lcd.print("min");
              lcd.print(timeRemaining % 60 < 10 ? " 0" : " ");
              lcd.print(timeRemaining % 60);
              lcd.print("sec  ");
            }
            break;
          case CYCLE_COMPLETE:
            //
            if (displayToggle)
            {
              lcd.setCursor(0, 0);
              lcd.print(F(" Watering Cycle "));
              lcd.setCursor(0, 1);
              lcd.print(F("    Complete    "));
            }
            else
            {
              int totalTimeRan = 0;
              for (int i = 1; i < NUMBER_OF_VALVES + 1; i++)
              {
                totalTimeRan += allZoneTime[i];
              }
              lcd.setCursor(0, 0);
              lcd.print(F(" Total Time Run "));
              lcd.setCursor(0, 1);
              lcd.print(totalTimeRan < 10 ? "   0" : "   ");
              lcd.print(totalTimeRan);
              lcd.print(" Minutes   ");
            }
          default:
            // what of ZONE_SELECT_MENU?
            break;
        }
        lastUpdateTime = millis();
      }
      lastDisplayState = state;
    }
    void receiveTime(time_t newTime)
    {
      DEBUG_PRINTLN(F("Time value received and updated..."));
      int lastSecond = second();
      int lastMinute = minute();
      int lastHour = hour();
      setTime(newTime);
      if (((second() != lastSecond) || (minute() != lastMinute) || (hour() != lastHour)) || showTime)
      {
        DEBUG_PRINTLN(F("Clock updated...."));
        DEBUG_PRINT(F("Sensor's time currently set to:"));
        DEBUG_PRINT(hourFormat12() < 10 ? F(" 0") : F(" "));
        DEBUG_PRINT(hourFormat12());
        DEBUG_PRINT(minute() < 10 ? F(":0") : F(":"));
        DEBUG_PRINT(minute());
        DEBUG_PRINTLN(isAM() ? F("am") : F("pm"));
        DEBUG_PRINT(month());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINT(day());
        DEBUG_PRINT(F("/"));
        DEBUG_PRINTLN(year());
        DEBUG_PRINTLN(dayOfWeek[weekday()]);
        showTime = false;
      }
      else
      {
        DEBUG_PRINTLN(F("Sensor's time did NOT need adjustment greater than 1 second."));
      }
      clockUpdating = false;
    }
    void fastClear()
    {
      lcd.setCursor(0, 0);
      lcd.print(F("                "));
      lcd.setCursor(0, 1);
      lcd.print(F("                "));
    }
    //
    void updateClock()
    {
      static unsigned long lastVeraGetTime;
      if (millis() - lastVeraGetTime >= 3600000UL) // updates clock time and gets zone times from vera once every hour
      {
        DEBUG_PRINTLN(F("Requesting time and valve data from Gateway..."));
        lcd.setCursor(15, 0);
        lcd.write(byte(0));
        clockUpdating = true;
        requestTime();
        lastVeraGetTime = millis();
      }
    }
    //
    void saveDateToEEPROM(unsigned long theDate)
    {
      DEBUG_PRINTLN(F("Saving Last Run date"));
      if (loadState(0) != 0xFF)
      {
        saveState(0, 0xFF); // EEPROM flag for last date saved stored in EEPROM (location zero)
      }
      //
      for (int i = 1; i < 5; i++)
      {
        saveState(5 - i, byte(theDate >> 8 * (i - 1))); // store epoch datestamp in 4 bytes of EEPROM starting in location one
      }
    }
    //
    void goGetValveTimes()
    {
      static unsigned long valveUpdateTime;
      static byte valveIndex = 1;
      if (inSetup || millis() - valveUpdateTime >= VALVE_TIMES_RELOAD / NUMBER_OF_VALVES) // update each valve once every 5 mins (distributes the traffic)
      {
        if (inSetup) {
          lcd.print(F(" Updating  "));
          lcd.setCursor(0, 1);
          lcd.print(F(" Valve Data: "));
          lcd.print(valveIndex);
        }
        bool flashIcon = false;
        DEBUG_PRINT(F("Calling for Valve "));
        DEBUG_PRINT(valveIndex);
        DEBUG_PRINTLN(F(" Data..."));
        for (int a = 0; a < (sizeof(allVars)/sizeof(int)); a++) {
          receivedInitialValue = false;
          byte timeout = 10;
          while (!receivedInitialValue && timeout > 0)
          {
            lcd.setCursor(15, 0);
            flashIcon = !flashIcon;
            flashIcon ? lcd.write(byte(1)) : lcd.print(F(" "));
            request(valveIndex, allVars[a]);
            wait(50);
            timeout--;
          }
        }
        valveUpdateTime = millis();
        valveIndex++;
        if (valveIndex > NUMBER_OF_VALVES)
        {
          valveIndex = 1;
        }
      }
    }
    

    As always, any help is appreciated.


  • Contest Winner

    @dbemowsk

    what's happening in the Serial debug?



  • I'll look later and report. Got company at the moment. The odd thing is that I can turn my zones on and they seem to run for the specified time just fine. It's only what I see on the display that is messed up.



  • I've just started playing with a Z-Uno and was looking at ways to use for a project like this.
    I'm a believer in not re-inventing the wheel and it seem that all I would need to do is to delete the radio and re-code the sketch for the extra relays ( I have already built a 4 channel relay, it's just getting over the hurdle of learning about Shift Registers).
    Do you think this is possible or would I be better just starting from scratch?


  • Contest Winner

    @Black-Cat said in Irrigation Controller (up to 16 valves with Shift Registers):

    Z-Uno

    wicked cool...

    I'm in North America, so I have to stand by!

    You you should be able to easily port this for use with Z-Uno...


  • Contest Winner

    @dbemowsk

    yes, weird...



  • @dbemowsk
    I had this same issue. What I did to fix the issue was I commented out in the void loop the line to goGetValveTimes. I then added the timeAlarms library and set a timer to get valve times once every five minutes. The section of code looks like this. Alarm.timerRepeat (300,goGetValveTimes);
    I inserted that line as the last line of cade in the void setup



  • Okay, so I was just looking over the code. I first did a search for "Valve Data:" as that was what was showing on the screen. I found that in the goGetValveTimes() method. According to the code, that is only supposed to show if the inSetup variable evaluates to true. I then searched on that variable, and in the code just before the setup() method, I see this:

    bool inSetup = true;
    

    But I don't see anywhere in the code where it sets that value to false. So every time the main loop() calls goGetValveTimes();, it is going to display that since inSetup never gets changed to false. At the very end of the setup routine I see this bit of code:

    //
      //Update valve data when first powered on 
      for (byte i = 1; i <= NUMBER_OF_VALVES; i++)
      {
        lcd.clear();
        goGetValveTimes();
      }
      lcd.clear();
    

    I think that it is just after that for loop, or after the lcd.clear(); that it is supposed to set inSetup to false. I have not tested this theory yet as I need to unmount my controller and open it up to push the new code to it, but I am pretty sure that this is the issue. That would explain why everything else with it appears to work normally.

    I double checked with the example code on the build page to see if possibly I may have deleted something when doing my edits. Looking it over, I found the same thing. If you ask me, this looks to be a bug in the code and it should be fixed and updated.



  • @dbemowsk
    I am in front of my computer and I have my controller in front of me and hooked up. Give me a couple minutes and I will run it. See what happens.



  • I just made the change and tested it. That was definitely the problem. Works perfect now.

    Not sure who can change the example code, but all that needs to be added is this:

    //
      //Update valve data when first powered on 
      for (byte i = 1; i <= NUMBER_OF_VALVES; i++)
      {
        lcd.clear();
        goGetValveTimes();
      }
      lcd.clear();
      //Add this line
      inSetup = false;
    


  • @dbemowsk
    You beat me too it. I added the same line in same location and it works perfect. Every so often I see the raindrop icon to show that it is pulling data to update the valve times.



  • So it is definitely a confirmed bug. I ended up finding some old sample code from when I started this last year and this bit of code was actually in the setup method and not in goGetValveTimes:

          lcd.print(F(" Updating  "));
          lcd.setCursor(0, 1);
          lcd.print(F(" Valve Data: "));
          lcd.print(valveIndex);
    

    So some time in the past year the sample code had been changed.


  • Contest Winner

    @dbemowsk

    good to see you found it. I haven't looked at the code for two years, and mine is still working. (@petewill 's demo worked well too). there must have been some change that managed its way into the source

    maybe look on GitHub and do a pull request if you the problem is there...



  • Hi I just order all the parts that was listed. Do I need to read the 230 post or it's ok just watched the video.



  • @tombstone You shouldn't need to read all the posts. Maybe just search the thread if you run into any snags. What kind of setup are you dropping this into? Do you currently have valves installed? Does your setup have a master valve or pump relay? Is it a standard 24V AC system?



  • Ok I read it all. Just want to start with the basic then change to pH reader soil reader water reader rain detector.



  • It's really hard to work out what's good post over bad post. Lol



  • Its my 1st project and I have learnt alot but have got myself a snag and I am getting this....

    Arduino: 1.8.3 (Windows 10), Board: "Arduino Pro or Pro Mini, ATmega328 (5V, 16 MHz)"

    C:\Users\HTPC\Documents\Arduino\Irrigation_Controller_1\Irrigation_Controller_1..ino:82:21: fatal error: TimeLib.h: No such file or directory

    #include <TimeLib.h>

                     ^
    

    compilation terminated.

    exit status 1
    Error compiling for board Arduino Pro or Pro Mini.


  • Mod

    go to library manager and install Time library



  • This post is deleted!


  • This post is deleted!


  • This post is deleted!


  • This post is deleted!


  • ok I almost there πŸ˜„ but my pro mini has just Analog 1 to 3. I say I have to change the coda were abouts...
    I also have not setup up my Vera Controller as I see you have to pay...

    Is there another one that is eazy as I have try some but can not get it to work. eg HomeGenie is download and on my pc but don't think its not to good. don't know how to find my pro mini. happy to chagaen to someing eazer to get me started thanks guys....



  • Domoticz LOOKS πŸ˜„ GOOD
    BUT new to all this πŸ˜„



  • If you are looking for Software, try openhab.

    You need to buy Vera, but the software is free.



  • @Black-Cat thanks 😁



  • ok so when adding to Domoticz..
    I go to hardware...
    I name is..... test...
    then choose.. MySensors Gateway with LAN interface....
    Data Timeout: .... Disabled.....
    Remote Address.... (I have tryed)....

    IP Address, Subnet Mask, Default Gateway, Primary DNS, Secondary DNS.

    (i try everythinbg I can think of and still not work)

    Port: ... 5003
    My pro min has the red light on and blink blue occassionally.

    what I get from the Domoticz log is

    
    
    2017-07-30 18:00:00.627 Error: MySensors: Can not connect to: 61.9.211.33:5003
    2017-07-30 18:00:00.627 TCP: Connection problem (Unable to connect to specified IP/Port)
    2017-07-30 18:00:00.627 TCP: Reconnecting in 30 seconds...
    '''

  • Admin

    @tombstone

    What hardware are you using for the gateway? Arduino, Sensebender GW, ESP8266, is it wired or wireless?

    Does it get an IP address from your router?

    Can you successfully telnet to the above IP address on port 5003? (And what is the output)

    Does the gateway send any logs to the serial port? If yes, then post them on the forum.



  • @tbowmo
    The hardware I'am using for the gateway is the Arduino pro mini and its wireless from the NRF24L01+ 2.4GHz Wireless Transceiver

    I don't know if it is getting IP address from my router.

    have not use telnet before (I have just youtube it and enabled it... all what i got from youtube was that you can send email lol cool)

    Does the gateway send any logs to the serial port? If yes, then post them on the forum. (were do I get them logs the ones from Domoticz and below but not much info to go on)

    Thanks πŸ˜„


  • Admin

    @tombstone

    How is the promini connected to the device runnning domoticz?

    To me it sounds like that you have the promini connected directly to your computer where domoticz is running, then you should add it as a serial gateway, and not ethernet gateway

    If you haven't already done this, I suggest that you read about the mysensors network so you have a basic understanding on how mysensors works.



  • @tbowmo
    I have it runing both ways but with serial gateway there no errors but when going to setup there is no NODES.

    2017-07-30 19:20:55.764 TCP: Connection problem (Unable to connect to specified IP/Port)
    2017-07-30 19:20:55.766 TCP: Reconnecting in 30 seconds...
    2017-07-30 19:21:26.035 TCP: Reconnecting...
    2017-07-30 19:21:37.093 MySensors: TCP/IP Worker stopped...
    2017-07-30 19:27:03.150 MySensors: Using serial port: COM4
    


  • @tombstone

    //#define MY_NODE_ID 1  // Set this to fix your Radio ID or use Auto
    

    IS there someing I have missed with adding NODES???



  • 0 MCO:BGN:INIT NODE,CP=RNNNA--,VER=2.1.1
    3 TSM:INIT
    4 TSF:WUR:MS=0
    11 TSM:INIT:TSP OK
    13 TSM:FPAR
    15 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    2022 !TSM:FPAR:NO REPLY
    2024 TSM:FPAR
    2026 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    4034 !TSM:FPAR:NO REPLY
    4036 TSM:FPAR
    4038 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    6046 !TSM:FPAR:NO REPLY
    6048 TSM:FPAR
    6050 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    8058 !TSM:FPAR:FAIL
    8059 TSM:FAIL:CNT=1
    8061 TSM:FAIL:PDT
    18065 TSM:FAIL:RE-INIT
    18067 TSM:INIT
    18074 TSM:INIT:TSP OK
    18076 TSM:FPAR
    18078 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    20086 !TSM:FPAR:NO REPLY
    20088 TSM:FPAR
    20090 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    22099 !TSM:FPAR:NO REPLY
    22102 TSM:FPAR
    22104 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    24112 !TSM:FPAR:NO REPLY
    24114 TSM:FPAR
    24116 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    26124 !TSM:FPAR:FAIL
    26125 TSM:FAIL:CNT=2
    26127 TSM:FAIL:PDT
    36130 TSM:FAIL:RE-INIT
    36132 TSM:INIT
    36140 TSM:INIT:TSP OK
    36142 TSM:FPAR
    36144 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    38152 !TSM:FPAR:NO REPLY
    38154 TSM:FPAR
    38156 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    40164 !TSM:FPAR:NO REPLY
    40166 TSM:FPAR
    40168 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    42176 !TSM:FPAR:NO REPLY
    42178 TSM:FPAR
    42180 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    44188 !TSM:FPAR:FAIL
    44189 TSM:FAIL:CNT=3
    44191 TSM:FAIL:PDT
    54194 TSM:FAIL:RE-INIT
    54196 TSM:INIT
    54203 TSM:INIT:TSP OK
    54205 TSM:FPAR
    54207 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    56215 !TSM:FPAR:NO REPLY
    56217 TSM:FPAR
    56219 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    58227 !TSM:FPAR:NO REPLY
    58229 TSM:FPAR
    58231 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    60239 !TSM:FPAR:NO REPLY
    60241 TSM:FPAR
    60243 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    62252 !TSM:FPAR:FAIL
    62254 TSM:FAIL:CNT=4
    62255 TSM:FAIL:PDT
    72258 TSM:FAIL:RE-INIT
    72260 TSM:INIT
    72267 TSM:INIT:TSP OK
    72269 TSM:FPAR
    72271 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    74280 !TSM:FPAR:NO REPLY
    74283 TSM:FPAR
    74285 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    76293 !TSM:FPAR:NO REPLY
    76295 TSM:FPAR
    76297 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    78305 !TSM:FPAR:NO REPLY
    78307 TSM:FPAR
    78309 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    80317 !TSM:FPAR:FAIL
    80318 TSM:FAIL:CNT=5
    80320 TSM:FAIL:PDT
    90323 TSM:FAIL:RE-INIT
    90326 TSM:INIT
    90333 TSM:INIT:TSP OK
    90335 TSM:FPAR
    90337 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    92345 !TSM:FPAR:NO REPLY
    92347 TSM:FPAR
    92349 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    94357 !TSM:FPAR:NO REPLY
    94359 TSM:FPAR
    94361 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    96369 !TSM:FPAR:NO REPLY
    96371 TSM:FPAR
    96373 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    98381 !TSM:FPAR:FAIL
    98383 TSM:FAIL:CNT=6
    98384 TSM:FAIL:PDT
    108387 TSM:FAIL:RE-INIT
    108389 TSM:INIT
    108396 TSM:INIT:TSP OK
    108398 TSM:FPAR
    108401 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    110408 !TSM:FPAR:NO REPLY
    110410 TSM:FPAR
    110413 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    112420 !TSM:FPAR:NO REPLY
    112422 TSM:FPAR
    112425 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    114433 !TSM:FPAR:NO REPLY
    114435 TSM:FPAR
    114438 TSF:MSG:SEND,255-255-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    116445 !TSM:FPAR:FAIL
    116447 TSM:FAIL:CNT=7
    116449 TSM:FAIL:PDT
    

    This is my debug log. will like to know if there some thing I missed as I learning thanks πŸ‘


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