Merge branch 'master' of https://github.com/0110/PlantCtrl into master

2020-10-14 22:58:15 +02:00 · 2020-10-14 22:58:15 +02:00 · 8043263772
commit 8043263772
parent d549be7d6f 67d1aa55de
12 changed files with 321 additions and 164 deletions
--- a/esp32/PlantControl.code-workspace
+++ b/esp32/PlantControl.code-workspace
@ -12,7 +12,8 @@
 			"istream": "cpp",
 			"limits": "cpp",
 			"streambuf": "cpp",
-			"functional": "cpp"
+			"functional": "cpp",
 			"string": "cpp"
 		}
 	}
 }
--- a/esp32/Readme.md
+++ b/esp32/Readme.md
@ -1,15 +1,58 @@
 # PlantControl
 ## Hardware
-Uses ESP32MniniKit
+Uses ESP32MiniKit
 ### Used Pins:
-* IO27 for DS18B20 temperature sensor
+* See '''include/ControllerConfiguration.h'''
 ## Software
-* Mqtt topics
+* MQTT topics
- * temperature
+
- * switch1
+# Hardware
-* Settings:
+## Features
- * ds18b20 - Enables Temperature measurement
+* Support for up to
- * deepsleep  - Setup intervall how long the controller sleeps
+ * 7 Moister sensors
 * 7 Pumps
 * Sensors
  * Solar powered (voltage)
  * Lipo-Powered (voltage)
  * Temperature
 * Custom GPIO
 # Features
 ## Empires Wunschliste
 * Pflanze
  * Pumpe
   * Zeitspann (wann laufen darf)
   * Helligkeitstrigger (Um den Morgen zum pumpen zu erkennen)
   * Maximal Dauer zum Pumpen (als Zeit oder Milliliter)
   * Zeitspanne zwischen zwei Pumpvorgängen
  * Moister sensor
   * Oberen
   * Unteren Wert
 * Tank
 * Füllstand Anzeige (in Liter)
 * Minimum Wasserstand (in cm damit Pumpen nicht leer laufen; enspricht 0 nutzbaren Liter)
 * Trigger-Erinnerungen um Wasser nachzufüllen
 * Maximaler Wasserstand des Tanks (in cm & Liter)
 * System
 * Tiefentladungsschutz vom LIPO (fest im Controller die Spannung festlegen)
  * 3.5V unterschritten, dann nur noch Deepsleep
  * MQTT Topic, wenn Spannung unterschritten wurde
 * Lipo innerhalb 24h nicht geladen -> MQTT Topic
 * Deep-Sleep
  * Mode1: 
    * Nur Sensor werte einsameln
    * Wird verlassen bei Aktionen
        * Pumpe schalten
        * MQTT Nachrichten
        * nach x Minuten nur in Mode1
  * Mode2: 
    * WLAN aktivieren und Werte über MQTT raus hauen
    * aktuelle Werte raushauen
    * MQTT lesen
  * Mode3:
    * Deepsleep verboten (MQTT topic, retained)
    * alle Pumpen & Sensoren deaktiviert
--- a/esp32/data/homie/.gitignore
+++ b/esp32/data/homie/.gitignore
--- a/esp32/data/homie/Readme.md
+++ b/esp32/data/homie/Readme.md
@ -0,0 +1,9 @@
 # Filesystem
 ## Configuration
 Use the config-example.json from the host folder and create here a config.json file.
 ## HowTo upload
 Start Platform.io
 Open a new Atom-Terminal and generate the filesystem with the following command :
 ```pio run -t buildfs```
 Upload this new generated filesystem with:
 ```pio run -t uploadfs```
--- a/esp32/data/homie/ui_bundle.gz
+++ b/esp32/data/homie/ui_bundle.gz
--- a/esp32/host/config-example.json
+++ b/esp32/host/config-example.json
@ -19,18 +19,31 @@
  },
  "settings": {
    "deepsleep"  : 60000,
    "nightsleep" : 60000,
    "pumpdeepsleep": 1000,
    "watermaxlevel": 50,
    "watermin" : 5, 
    "plants" : 3,
    "moist0" : 2000,
    "moist1" : 2000,
    "moist2" : 2000,
    "moist3" : 2000,
    "moist4" : 2000,
    "moist5" : 2000,
    "moist6" : 2000,
    "plant0MaxPumpTime": 1000,
    "plant1MaxPumpTime": 1000,
    "plant2MaxPumpTime": 1000,
    "plant3MaxPumpTime": 1000,
    "plant4MaxPumpTime": 1000,
    "plant5MaxPumpTime": 1000,
    "plant6MaxPumpTime": 1000,
    "plant0MinPumpIdle": 10000,
    "plant1MinPumpIdle": 10000,
    "plant2MinPumpIdle": 10000,
-    "plant3MinPumpIdle": 10000
+    "plant3MinPumpIdle": 10000,
    "plant4MinPumpIdle": 10000,
    "plant5MinPumpIdle": 10000,
    "plant6MinPumpIdle": 10000
  }
 }
--- a/esp32/include/ControllerConfiguration.h
+++ b/esp32/include/ControllerConfiguration.h
@ -11,7 +11,7 @@
 #ifndef CONTROLLER_CONFIG_H
 #define CONTROLLER_CONFIG_H
-#define FIRMWARE_VERSION        "1.0.1"
+#define FIRMWARE_VERSION        "1.0.2"
 #define ADC_TO_VOLT(adc)                      ((adc) * 3.3 ) / 4095)
 #define ADC_TO_VOLT_WITH_MULTI(adc, multi)    (((adc) * 3.3 * (multi)) / 4095)
@ -47,7 +47,8 @@
 #define MIN_TIME_RUNNING    5UL  /**< Amount of seconds the controller must stay awoken */
 #define MAX_PLANTS          7 
 #define EMPTY_LIPO_MULTIPL  3    /**< Multiplier to increase time for sleeping when lipo is empty */
-#define MINIMUM_LIPO_VOLT   3.3f /**< Minimum voltage of the Lipo, that must be present */
+#define MINIMUM_LIPO_VOLT   3.6f /**< Minimum voltage of the Lipo, that must be present */
 #define NO_LIPO_VOLT        2.0f /**< No Lipo connected */
 #define MINIMUM_SOLAR_VOLT  4.0f /**< Minimum voltage of the sun, to detect daylight */
 #define HC_SR04                  /**< Ultrasonic distance sensor to measure water level */
--- a/esp32/include/PlantCtrl.h
+++ b/esp32/include/PlantCtrl.h
@ -25,9 +25,12 @@ private:
    int mAnalogValue=0; /**< moist sensor values, used for a calculation */
    HomieNode *mPlant = NULL;
-    HomieSetting<long> *mSensorTriggerLevel=NULL;
+    HomieSetting<long> *mSensorDry;
-    HomieSetting<long> *mWateringTime=NULL;
+    HomieSetting<long> *mSensorWet;
-    HomieSetting<long> *mWateringIdleTime=NULL;
+    HomieSetting<long> *mPumpAllowedHourRangeStart;
    HomieSetting<long> *mPumpAllowedHourRangeEnd;
    HomieSetting<bool> *mPumpOnlyWhenLowLight;
    HomieSetting<long> *mPumpCooldownInHours;
 public:
@ -38,10 +41,7 @@ public:
     * @param pinPump   Pin of the Pump to use
     */
    Plant(int pinSensor, int pinPump,
-            HomieNode *plant,
+            int plantId);
            HomieSetting<long> *sensorTriggerLevel, 
            HomieSetting<long> *wateringTime,
            HomieSetting<long> *wateringIdleTime);
    /**
     * @brief Add a value, to be measured
@ -81,7 +81,7 @@ public:
     * @return false 
     */
    bool isPumpRequired() {
-         return (this->mSensorTriggerLevel != NULL) && (this->mValue < this->mSensorTriggerLevel->get()); 
+         return (this->mSensorWet != NULL) && (this->mValue < this->mSensorWet->get()); 
    }
    HomieInternals::SendingPromise& setProperty(const String& property) const {
--- a/esp32/src/PlantCtrl.cpp
+++ b/esp32/src/PlantCtrl.cpp
@ -12,17 +12,65 @@
 #include "PlantCtrl.h"
-Plant::Plant(int pinSensor, int pinPump,
+Plant::Plant(int pinSensor, int pinPump,int plantId) {
    HomieNode *plant,
    HomieSetting<long> *sensorTriggerLevel, 
    HomieSetting<long> *wateringTime,
    HomieSetting<long> *wateringIdleTime) {
        this->mPlant=plant;
    this->mPinSensor = pinSensor;
    this->mPinPump = pinPump;
-        this->mSensorTriggerLevel=sensorTriggerLevel;
+
-        this->mWateringTime=wateringTime;
+    char plantIdChar = plantId+'0';
-        this->mWateringIdleTime=wateringIdleTime;
+
    /*
    {
        char* name = "moistZdry";
        name[5]= plantIdChar;
        mSensorDry = new HomieSetting<long>(name, "Moist sensor dry threshold");
        mSensorDry->setDefaultValue(4095);
        mSensorDry->setValidator([] (long candidate) {
            return ((candidate >= 0) && (candidate <= 4095) );
        });
    }
    {
        char* name = "moistZwet";
        name[6]= plantIdChar;
        mSensorWet = new HomieSetting<long>(name, "Moist sensor wet threshold");
        mSensorWet->setDefaultValue(0);
        mSensorWet->setValidator([] (long candidate) {
            return ((candidate >= 0) && (candidate <= 4095) );
        });
    }
    {
        char* name = "rangeZhourstart";
        name[6]= plantIdChar;
        mPumpAllowedHourRangeStart = new HomieSetting<long>(name, "Range pump allowed hour start");
        mPumpAllowedHourRangeStart->setDefaultValue(8);
        mPumpAllowedHourRangeStart->setValidator([] (long candidate) {
            return ((candidate >= 0) && (candidate <= 23) );
        });
    }
    {
        char* name = "rangeZhourend";
        name[6]= plantIdChar;
        mPumpAllowedHourRangeEnd = new HomieSetting<long>(name, "Range pump allowed hour end");
        mPumpAllowedHourRangeEnd->setDefaultValue(20);
        mPumpAllowedHourRangeEnd->setValidator([] (long candidate) {
            return ((candidate >= 0) && (candidate <= 23) );
        });
    }
    {
        char* name = "onlyWhenLowLightZ";
        name[16]= plantIdChar;
        mPumpOnlyWhenLowLight = new HomieSetting<bool>(name, "Enable the Pump only, when there is light but not enought to charge battery");
        mPumpOnlyWhenLowLight->setDefaultValue(true);
    }
    {
        char* name = "cooldownpumpZ";
        name[12]= plantIdChar;
        mPumpCooldownInHours = new HomieSetting<long>(name, "How long to wait until the pump is activated again");
        mPumpCooldownInHours->setDefaultValue(20);
        mPumpCooldownInHours->setValidator([] (long candidate) {
            return ((candidate >= 0) && (candidate <= 1024) );
        });
    }
 */
 }
 void Plant::addSenseValue(int analog) {
--- a/esp32/src/main.cpp
+++ b/esp32/src/main.cpp
@ -25,6 +25,7 @@ const unsigned long TEMPREADCYCLE = 30000; /**< Check temperature all half minut
 bool mLoopInited = false;
 bool mDeepSleep = false;
 bool mAlive=false;        /**< Controller must not sleep */
 int plantSensor1 = 0;
@ -67,62 +68,27 @@ HomieNode sensorLipo("lipo", "Battery Status", "Lipo");
 HomieNode sensorSolar("solar", "Solar Status", "Solarpanel");
 HomieNode sensorWater("water", "WaterSensor", "Water");
 HomieNode sensorTemp("temperature", "Temperature", "temperature");
 HomieNode stayAlive("stay", "alive", "alive");
 HomieSetting<long> deepSleepTime("deepsleep", "time in milliseconds to sleep (0 deactivats it)");
 HomieSetting<long> deepSleepNightTime("nightsleep", "time in milliseconds to sleep (0 usese same setting: deepsleep at night, too)");
 HomieSetting<long> wateringDeepSleep("pumpdeepsleep", "time seconds to sleep, while a pump is running");
 HomieSetting<long> plantCnt("plants", "amout of plants to control (1 ... 7)");
-#ifdef  HC_SR04
+HomieSetting<long> waterLevelMax("watermaxlevel", "distance at maximum water level");
-HomieSetting<long> waterLevel("watermaxlevel", "Water maximum level in centimeter (50 cm default)");
+HomieSetting<long> waterLevelMin("waterminlevel", "distance at minimum water level (pumps still covered)");
-HomieSetting<long> waterMinPercent("watermin", "Minimum percentage of water, to activate the pumps (default 5%)");
+HomieSetting<long> waterLevelWarn("waterlevelwarn", "warn if below this water level %");
-#endif
+HomieSetting<long> waterLevelVol("waterVolume", "ml between minimum and maximum");
 HomieSetting<long> plant0SensorTrigger("moist0", "Moist0 sensor value, when pump activates");
 HomieSetting<long> plant1SensorTrigger("moist1", "Moist1 sensor value, when pump activates");
 HomieSetting<long> plant2SensorTrigger("moist2", "Moist2 sensor value, when pump activates");
 HomieSetting<long> plant3SensorTrigger("moist3", "Moist3 sensor value, when pump activates");
 HomieSetting<long> plant4SensorTrigger("moist4", "Moist4 sensor value, when pump activates");
 HomieSetting<long> plant5SensorTrigger("moist5", "Moist5 sensor value, when pump activates");
 HomieSetting<long> plant6SensorTrigger("moist6", "Moist6 sensor value, when pump activates");
 HomieSetting<long> wateringTime0("plant0MaxPumpTime", "time seconds Pump0 is running (60 is the default)");
 HomieSetting<long> wateringTime1("plant1MaxPumpTime", "time seconds Pump1 is running (60 is the default)");
 HomieSetting<long> wateringTime2("plant2MaxPumpTime", "time seconds Pump2 is running (60 is the default)");
 HomieSetting<long> wateringTime3("plant3MaxPumpTime", "time seconds Pump3 is running (60 is the default)");
 HomieSetting<long> wateringTime4("plant4MaxPumpTime", "time seconds Pump4 is running (60 is the default)");
 HomieSetting<long> wateringTime5("plant5MaxPumpTime", "time seconds Pump5 is running (60 is the default)");
 HomieSetting<long> wateringTime6("plant6MaxPumpTime", "time seconds Pump6 is running (60 is the default)");
 HomieSetting<long> wateringIdleTime0("plant0MinPumpIdle", "time in seconds Pump0 will wait (60 is the default)");
 HomieSetting<long> wateringIdleTime1("plant1MinPumpIdle", "time in seconds Pump1 will wait (60 is the default)");
 HomieSetting<long> wateringIdleTime2("plant2MinPumpIdle", "time in seconds Pump2 will wait (60 is the default)");
 HomieSetting<long> wateringIdleTime3("plant3MinPumpIdle", "time in seconds Pump3 will wait (60 is the default)");
 HomieSetting<long> wateringIdleTime4("plant4MinPumpIdle", "time in seconds Pump4 will wait (60 is the default)");
 HomieSetting<long> wateringIdleTime5("plant5MinPumpIdle", "time in seconds Pump5 will wait (60 is the default)");
 HomieSetting<long> wateringIdleTime6("plant6MinPumpIdle", "time in seconds Pump6 will wait (60 is the default)");
 Ds18B20 dallas(SENSOR_DS18B20);
 Plant mPlants[MAX_PLANTS] = { 
-#if (MAX_PLANTS >= 1)
+        Plant(SENSOR_PLANT0, OUTPUT_PUMP0, 0), 
-        Plant(SENSOR_PLANT0, OUTPUT_PUMP0, &plant0, &plant0SensorTrigger, &wateringTime0, &wateringIdleTime0), 
+        Plant(SENSOR_PLANT1, OUTPUT_PUMP1, 1), 
-#endif
+        Plant(SENSOR_PLANT2, OUTPUT_PUMP2, 2), 
-#if (MAX_PLANTS >= 2)
+        Plant(SENSOR_PLANT3, OUTPUT_PUMP3, 3), 
-        Plant(SENSOR_PLANT1, OUTPUT_PUMP1, &plant1, &plant1SensorTrigger, &wateringTime1, &wateringIdleTime1), 
+        Plant(SENSOR_PLANT4, OUTPUT_PUMP4, 4), 
-#endif
+        Plant(SENSOR_PLANT5, OUTPUT_PUMP5, 5), 
-#if (MAX_PLANTS >= 3)
+        Plant(SENSOR_PLANT6, OUTPUT_PUMP6, 6) 
        Plant(SENSOR_PLANT2, OUTPUT_PUMP2, &plant2, &plant2SensorTrigger, &wateringTime2, &wateringIdleTime2), 
 #endif
 #if (MAX_PLANTS >= 4)
        Plant(SENSOR_PLANT3, OUTPUT_PUMP3, &plant3, &plant3SensorTrigger, &wateringTime3, &wateringIdleTime3),  
 #endif
 #if (MAX_PLANTS >= 5)
        Plant(SENSOR_PLANT4, OUTPUT_PUMP4, &plant4, &plant4SensorTrigger, &wateringTime4, &wateringIdleTime4),  
 #endif
 #if (MAX_PLANTS >= 6)
        Plant(SENSOR_PLANT5, OUTPUT_PUMP5, &plant5, &plant5SensorTrigger, &wateringTime5, &wateringIdleTime5),  
 #endif
 #if (MAX_PLANTS >= 7)
        Plant(SENSOR_PLANT6, OUTPUT_PUMP6, &plant6, &plant6SensorTrigger, &wateringTime6, &wateringIdleTime6) 
 #endif
      };
 void readAnalogValues() {
@ -146,8 +112,6 @@ void readAnalogValues() {
 */
 void loopHandler() {
  int waterLevelPercent = (100 * mWaterGone) / waterLevel.get();
  /* Move from Setup to this position, because the Settings are only here available */
  if (!mLoopInited) {
    // Configure Deep Sleep:
@ -168,7 +132,7 @@ void loopHandler() {
    plant6.setProperty("switch").send(String("OFF"));
 #endif   
-    for(int i=0; i < plantCnt.get() && i < MAX_PLANTS; i++) {
+    for(int i=0; i < MAX_PLANTS; i++) {
      mPlants[i].calculateSensorValue(AMOUNT_SENOR_QUERYS);
        mPlants[i].setProperty("moist").send(String(100 * mPlants[i].getSensorValue() / 4095 ));
      /* the last Plant, that was watered is stored in non volatile memory */
@ -182,14 +146,14 @@ void loopHandler() {
      }
    }
-    sensorWater.setProperty("remaining").send(String(waterLevelPercent));
+    sensorWater.setProperty("remaining").send(String(waterLevelMax.get() - mWaterGone ));
-    Serial << "Water : " << mWaterGone << " cm (" << waterLevelPercent << "%)" << endl;
+    Serial << "Water : " << mWaterGone << " cm (" << String(waterLevelMax.get() - mWaterGone ) << "%)" << endl;
    /* Check if a plant needs water */
    if (gCurrentPlant > 0) {
      int plntIdx = (gCurrentPlant-1);
      if (mPlants[plntIdx].isPumpRequired() && 
-          (waterLevelPercent > waterMinPercent.get()) &&
+          (mWaterGone > waterLevelMin.get()) &&
          (digitalRead(mPlants[plntIdx].getPumpPin()) == LOW) ) {
          Serial << "Plant" << plntIdx << " needs water" << endl;
          mPlants[plntIdx].setProperty("switch").send(String("ON"));
@ -226,7 +190,7 @@ void loopHandler() {
  }
  /* Main Loop functionality */
-  if (waterLevelPercent <= waterMinPercent.get()) {
+  if (mWaterGone <= waterLevelMin.get()) {
      /* let the ESP sleep qickly, as nothing must be done */
      if ((millis() >= (MIN_TIME_RUNNING * MS_TO_S)) && (deepSleepTime.get() > 0)) {
        mDeepSleep = true;
@ -238,7 +202,6 @@ void loopHandler() {
  /* Pump is running, go to sleep after defined time */
  if (millis() >= ((MIN_TIME_RUNNING + 5) && 
            (deepSleepTime.get() > 0))) {
    Serial << "No sleeping activated (maximum)" << endl;
    mDeepSleep = true;
  } else if ((millis() >= ((MIN_TIME_RUNNING * MS_TO_S) + 0)) &&
      (deepSleepTime.get() > 0)) {
@ -285,6 +248,26 @@ bool switchGeneralPumpHandler(const int pump, const HomieRange& range, const Str
  }
 }
 /**
 * @brief Handle Mqtt commands to keep controller alive
 * 
 * @param range multiple transmitted values (not used for this function)
 * @param value single value
 * @return true when the command was parsed and executed succuessfully
 * @return false on errors when parsing the request
 */
 bool aliveHandler(const HomieRange& range, const String& value) {
  if (range.isRange) return false;  // only one controller is present
  if (value.equals("ON") || value.equals("On") || value.equals("1")) {
      mAlive=true;
  } else {
      mAlive=false;
  }
  Serial << "HOMIE  | Controller " << (mAlive ? " has coffee" : " is tired") << endl;
  return true;
 }
 /**
 * @brief Handle Mqtt commands for the pumpe, responsible for the first plant
 * 
@ -380,44 +363,21 @@ void setup() {
  /* activate Wifi again */
  WiFi.mode(WIFI_STA);
  if (HomieInternals::MAX_CONFIG_SETTING_SIZE < MAX_CONFIG_SETTING_ITEMS) {
    Serial << "HOMIE | Settings: " << HomieInternals::MAX_CONFIG_SETTING_SIZE << "/" << MAX_CONFIG_SETTING_ITEMS << endl;
    Serial << "      | Update Limits.hpp : MAX_CONFIG_SETTING_SIZE to " << MAX_CONFIG_SETTING_ITEMS << endl;
    Serial << "      | Update Limits.hpp : MAX_JSON_CONFIG_FILE_SIZE to 3000" << endl;
  }
  Homie_setFirmware("PlantControl", FIRMWARE_VERSION);
  Homie.setLoopFunction(loopHandler);
  mConfigured = Homie.isConfigured();
  if (mConfigured) {
    // Load the settings
    deepSleepTime.setDefaultValue(0);
    deepSleepNightTime.setDefaultValue(0);
    wateringTime0.setDefaultValue(60);
    wateringTime1.setDefaultValue(60);
    wateringTime2.setDefaultValue(60);
    wateringTime3.setDefaultValue(60);
    wateringTime4.setDefaultValue(60);
    wateringTime5.setDefaultValue(60);
    wateringTime6.setDefaultValue(60);
    plantCnt.setDefaultValue(0).setValidator([] (long candidate) {
      return ((candidate >= 0) && (candidate <= 6) );
    });
    plant1SensorTrigger.setDefaultValue(0);
    plant2SensorTrigger.setDefaultValue(0);
    plant3SensorTrigger.setDefaultValue(0);
  #if (MAX_PLANTS >= 4)
    plant4SensorTrigger.setDefaultValue(0);
    plant5SensorTrigger.setDefaultValue(0);
    plant6SensorTrigger.setDefaultValue(0);
  #endif
  #ifdef HC_SR04
    waterLevel.setDefaultValue(50);
    waterMinPercent.setDefaultValue(5);
  #endif
  if (mConfigured) {
    // Advertise topics
    plant1.advertise("switch").setName("Pump 1")
                              .setDatatype("boolean")
@ -479,12 +439,15 @@ void setup() {
                .setDatatype("number")
                .setUnit("V");
    sensorWater.advertise("remaining").setDatatype("number").setUnit("%");
    // Mode 3
    stayAlive.advertise("alive").setName("Alive").setDatatype("number").settable(aliveHandler);
  }
  Homie.setup();
  /* Intialize inputs and outputs */
-  for(int i=0; i < plantCnt.get(); i++) {
+  for(int i=0; i < MAX_PLANTS; i++) {
    pinMode(mPlants[i].getPumpPin(), OUTPUT);
    pinMode(mPlants[i].getSensorPin(), ANALOG);
    digitalWrite(mPlants[i].getPumpPin(), LOW);
@ -510,7 +473,10 @@ void setup() {
    esp_sleep_enable_timer_wakeup(usSleepTime);
  }
-  if (mConfigured && (ADC_5V_TO_3V3(lipoSenor) < MINIMUM_LIPO_VOLT) && (deepSleepTime.get()) ) {
+  if (mConfigured && 
    (ADC_5V_TO_3V3(lipoSenor) < MINIMUM_LIPO_VOLT) && 
    (ADC_5V_TO_3V3(lipoSenor) > NO_LIPO_VOLT) &&
    (deepSleepTime.get()) ) {
    long sleepEmptyLipo = (deepSleepTime.get() * EMPTY_LIPO_MULTIPL);
    Serial << "HOMIE | Change sleeping to " << sleepEmptyLipo << " ms as lipo is at " << ADC_5V_TO_3V3(lipoSenor) << "V" << endl;
    esp_sleep_enable_timer_wakeup(sleepEmptyLipo * 1000U);
@ -645,8 +611,17 @@ void loop() {
    }
  } else {
    if (!mAlive) {
      Serial << (millis()/ 1000) << "s running; sleeeping ..." << endl;
      Serial.flush();
      esp_deep_sleep_start();
    } else {
      mDeepSleep = false;
      if (((millis()) % 10000) == 0) {
        /* tell everybody how long we are awoken */
        stayAlive.setProperty("alive").send( String(millis()/ 1000) );
      }
    }
  }
 }
--- a/esp32test/Esp32DeepSleepTest/platformio.ini
+++ b/esp32test/Esp32DeepSleepTest/platformio.ini
@ -13,3 +13,4 @@ platform = espressif32
 board = esp32doit-devkit-v1
 framework = arduino
 build_flags = -DPIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY
 lib_deps = OneWire
--- a/esp32test/Esp32DeepSleepTest/src/main.cpp
+++ b/esp32test/Esp32DeepSleepTest/src/main.cpp
@ -1,12 +1,43 @@
 #include <Arduino.h>
 #include "esp_sleep.h"
 #include <DS18B20.h>
 #define uS_TO_S_FACTOR 1000000  /* Conversion factor for micro seconds to seconds */
-#define TIME_TO_SLEEP  2        /* Time ESP32 will go to sleep (in seconds) */
+#define TIME_TO_SLEEP  5        /* Time ESP32 will go to sleep (in seconds) */
 #define SENSOR_LIPO         34  /**< GPIO 34 (ADC1) */
 #define SENSOR_SOLAR        35  /**< GPIO 35 (ADC1) */
 #define SENSOR_DS18B20      2 /**< GPIO 2 */
 #define OUTPUT_PUMP0        23  /**< GPIO 23  */
 #define OUTPUT_PUMP1        22  /**< GPIO 22  */
 #define OUTPUT_PUMP2        21  /**< GPIO 21 */
 #define OUTPUT_PUMP3        19  /**< GPIO 19 */
 #define OUTPUT_PUMP4        18  /**< GPIO 18 */
 #define OUTPUT_PUMP5        5   /**< GPIO 5  */
 #define OUTPUT_PUMP6        15  /**< GPIO 15 */
 #define OUTPUT_SENSOR       16  /**< GPIO 16 - Enable Sensors  */
 #define OUTPUT_PUMP         13  /**< GPIO 13 - Enable Pumps  */
 #define SENSOR_PLANT0       32  /**< GPIO 32 (ADC1) */
 #define ADC_TO_VOLT(adc)                      ((adc) * 3.3 ) / 4095)
 #define ADC_TO_VOLT_WITH_MULTI(adc, multi)    (((adc) * 3.3 * (multi)) / 4095)
 #define SOLAR_VOLT(adc)     ADC_TO_VOLT_WITH_MULTI(adc, 4.0306) /**< 100k and 33k voltage dividor */
 #define ADC_5V_TO_3V3(adc)  ADC_TO_VOLT_WITH_MULTI(adc, 1.7)    /**< 33k and 47k8 voltage dividor */
 RTC_DATA_ATTR int bootCount = 0;
 RTC_DATA_ATTR int pumpActive = 0;
 int secondBootCount = 0;
 Ds18B20 ds(SENSOR_DS18B20);
 void print_wakeup_reason(){
  esp_sleep_wakeup_cause_t wakeup_reason;
@ -22,25 +53,36 @@ void print_wakeup_reason(){
  }
 }
 void setAll2Off() {
  digitalWrite(OUTPUT_PUMP0, LOW);
  digitalWrite(OUTPUT_PUMP1, LOW);
  digitalWrite(OUTPUT_PUMP2, LOW);
  digitalWrite(OUTPUT_PUMP3, LOW);
  digitalWrite(OUTPUT_PUMP4, LOW);
  digitalWrite(OUTPUT_PUMP5, LOW);
  digitalWrite(OUTPUT_PUMP6, LOW);
  digitalWrite(OUTPUT_SENSOR, LOW);
  digitalWrite(OUTPUT_PUMP, LOW);
 }
 void setup() {
-  pinMode(GPIO_NUM_23, OUTPUT);
+
-  pinMode(GPIO_NUM_22, OUTPUT);
+  pinMode(OUTPUT_PUMP0, OUTPUT);
-  pinMode(GPIO_NUM_21, OUTPUT);
+  pinMode(OUTPUT_PUMP1, OUTPUT);
-  pinMode(GPIO_NUM_19, OUTPUT);
+  pinMode(OUTPUT_PUMP2, OUTPUT);
-  pinMode(GPIO_NUM_18, OUTPUT);
+  pinMode(OUTPUT_PUMP3, OUTPUT);
-  pinMode(GPIO_NUM_5, OUTPUT);
+  pinMode(OUTPUT_PUMP4, OUTPUT);
-  pinMode(GPIO_NUM_4, OUTPUT);
+  pinMode(OUTPUT_PUMP5, OUTPUT);
-  pinMode(GPIO_NUM_15, OUTPUT);
+  pinMode(OUTPUT_PUMP6, OUTPUT);
-  pinMode(GPIO_NUM_13, OUTPUT);
+  pinMode(OUTPUT_SENSOR, OUTPUT);
-  digitalWrite(GPIO_NUM_23, HIGH);
+  pinMode(OUTPUT_PUMP, OUTPUT);
-  digitalWrite(GPIO_NUM_22, HIGH);
+
-  digitalWrite(GPIO_NUM_21, HIGH);
+  pinMode(SENSOR_LIPO, ANALOG);
-  digitalWrite(GPIO_NUM_19, HIGH);
+  pinMode(SENSOR_SOLAR, ANALOG);
-  digitalWrite(GPIO_NUM_18, HIGH);
+  pinMode(SENSOR_PLANT0, ANALOG);
-  digitalWrite(GPIO_NUM_5, HIGH);
+
-  digitalWrite(GPIO_NUM_4, HIGH);
+  setAll2Off();
-  digitalWrite(GPIO_NUM_15, HIGH);
+  
  digitalWrite(GPIO_NUM_13, HIGH);
  Serial.begin(115200);
  //Increment boot number and print it every reboot
@ -75,34 +117,58 @@ void setup() {
  pinMode(GPIO_NUM_27, INPUT_PULLUP);
  pinMode(GPIO_NUM_14, INPUT_PULLUP);
  pinMode(GPIO_NUM_12, INPUT_PULLUP);
  /* Sensor activieren */
  digitalWrite(OUTPUT_SENSOR, HIGH);
  /* activate power pump and pump 0 */
  digitalWrite(OUTPUT_PUMP, HIGH);
 }
 void loop() {  
-  Serial.println("------------");
+  double value = analogRead(SENSOR_LIPO);
-  Serial.flush(); 
+  
  Serial.println(value);
  float temp[2] = {0, 0};
  float* pFloat = temp;
  Serial.print("DS18B20 sensors: ");
  Serial.println(ds.readDevices());
  delay(200);
  if (ds.readAllTemperatures(pFloat, 2) > 0) {
      Serial.println(temp[0]);
      Serial.println(temp[1]);
  }
  double volt = ADC_5V_TO_3V3(value);
  Serial.print("Lipo: ");
  Serial.println(volt);
  pumpActive = (pumpActive + 1) % 2;
  if (pumpActive) {
    digitalWrite(OUTPUT_PUMP0, HIGH);
  } else {
    digitalWrite(OUTPUT_PUMP0, LOW);
  }
   double solarVal = analogRead(SENSOR_SOLAR);
  Serial.println(solarVal);
  double solarVolt = SOLAR_VOLT(solarVal);
  Serial.print("Solar: ");
  Serial.println(solarVolt);
  Serial.print("Moist0: ");
  Serial.println(analogRead(SENSOR_PLANT0));
  delay(1000);
  digitalWrite(GPIO_NUM_23, analogRead(GPIO_NUM_34) > 3500);
  Serial.println(analogRead(GPIO_NUM_34));
  Serial.println(analogRead(GPIO_NUM_35));
  Serial.println(analogRead(GPIO_NUM_32));
  Serial.println(analogRead(GPIO_NUM_33));
  Serial.println(analogRead(GPIO_NUM_25));
  Serial.println(analogRead(GPIO_NUM_26));
  Serial.println(analogRead(GPIO_NUM_27));
  Serial.println(analogRead(GPIO_NUM_14));
  Serial.println(analogRead(GPIO_NUM_12));
  gpio_hold_en(GPIO_NUM_4);
  gpio_hold_en(GPIO_NUM_13);
  gpio_hold_en(GPIO_NUM_15);
  gpio_deep_sleep_hold_en();
-
+  gpio_hold_en(GPIO_NUM_13);
  esp_deep_sleep_start();
 }