Muddy_ChachanShebin Jose Jacob
Created April 6, 2020 © MIT

Menesto

A 30$ smart vest exclusively for menopausal women.

IntermediateFull instructions provided20 hours178

Things used in this project

Hardware components

Thermo Electric Peltier with Heatsink and Fan TEC12706
×2
ESP8266 NodeMcu WiFi Development Board
×1
LITHIUM-ION 18650 RECHARGEABLE CELL 3.7V 2200MAH (2C) GRADE-A
×4
DHT11 - Temprature and Humidity Sensor Module
×1
DS18B20 Digital Temperature Sensor Module
×1
TIP122 - NPN Transistor
×2
Mini Push Button Switch - 5mm
×1
Resistor 1k ohm
Resistor 1k ohm
×3
40 Pin 2.54 mm Single Row Female Pin Header
×2
Multicolor Flat Ribbon Cable 10 wire per 1 meter – 2pcs
×1
PCB board 5x7cm
×1
TP4056 1A Li-Ion Battery Charging Board Micro USB with Current Protection
×1

Software apps and online services

Arduino IDE
Arduino IDE
Blynk
Blynk

Hand tools and fabrication machines

Wire Stripper & Cutter, 18-10 AWG / 0.75-4mm² Capacity Wires
Wire Stripper & Cutter, 18-10 AWG / 0.75-4mm² Capacity Wires
Soldering iron (generic)
Soldering iron (generic)
Solder Wire, Lead Free
Solder Wire, Lead Free
Sewing needle

Story

Read more

Schematics

Schematics

Wire as per the schematics.

Code

Menesto.ino

C/C++
Main Arduino sketch file
 /*======================================
 Filename        : Menesto.ino                                                
 Description     : Arduino sketch file.                                         
 Author          : Coders Cafe                                                   Version         : 1.0.3                                                        
 Initial Release : 01-April-2020                                           
 License         : MIT
 =======================================*/
                                 
#define USE_NODE_MCU_BOARD 
#define SimpleTimer BlynkTimer
#define BLYNK_PRINT Serial
#define APP_DEBUG                    // Comment this out to disable debug prints

#include <ESP8266WiFi.h>
#include <BlynkSimpleEsp8266.h>
#include "BlynkProvisioning.h"
#include <DHT.h>
#include <WidgetRTC.h>
#include <OneWire.h> 
#include <DallasTemperature.h>

#define ONE_WIRE_BUS 12
OneWire oneWire(ONE_WIRE_BUS);
DallasTemperature sensors(&oneWire);
float humidity;
float temperature;
 
BlynkTimer timer;
WidgetRTC rtc;

#define DHTPIN 14
#define DHTTYPE DHT11
DHT dht(DHTPIN, DHTTYPE);
int TEC_1 = 4;
int TEC_2 = 5;
int Auto,x,y;

int Button = 16;
int ButtonState = 0; 
unsigned startPressed = 0;  
unsigned endPressed = 0;
unsigned Hold_time;
int flag = 0;
float Lat,Lon;


BLYNK_WRITE(V0)
{
  x = param.asFloat();
}
BLYNK_WRITE(V1)
{
  Auto = param.asInt();
}
BLYNK_WRITE(V2)
{
   GpsParam gps(param);
   Lat = gps.getLat();
   Lon = gps.getLon();
}
BLYNK_CONNECTED() 
{
  rtc.begin();
}


void notification()
{
  Blynk.notify("Drink Water");
}


void HotFlash()
{
   if( Auto == 1)
      {
         float diff = temperature-37;// Hot flash temperature
         x = 25 - diff;
         y = map(x,35,10,255,1024); //Map temperature value to PWM values 
         Blynk.virtualWrite(V0,x);
         analogWrite(TEC_1,y);
         analogWrite(TEC_2,y);
         Blynk.setProperty(V0, "color", "#FF6347");
      }
      else
      {
         y = map(x,35,10,255,1024);
         analogWrite(TEC_1,y);
         analogWrite(TEC_2,y);
         Blynk.setProperty(V0, "color", "#03c0f8");
        
      }
}


void setup() 
{
  delay(500);
  Serial.begin(9600);
  pinMode(Button,INPUT);
  BlynkProvisioning.begin();
  dht.begin();
  sensors.begin();
}

void loop() 
{
  BlynkProvisioning.run();  // This handles the network and cloud connection
  
  /*============= Panic button ===============*/
  
  ButtonState = digitalRead(Button); 
  if(ButtonState == HIGH && flag == 0)
  {
     startPressed = millis();
     flag = 1;
  }   
  if(ButtonState == LOW && flag == 1)
  {
        endPressed = millis();
        Hold_time  = endPressed - startPressed;
        if(Hold_time > 3000)
       {
          String bURL = "http://maps.google.com/maps?q="+ String(Lat) +","+ String(Lon);//Geographic co-ordinates
          Blynk.email("user email","Alert",bURL);
          Serial.println("Alert");
       }   
       flag=0;
  }

  /*============= Hot flashes =================*/

  sensors.requestTemperatures();   
  humidity       = dht.readHumidity();
  Serial.println(humidity);
  temperature    = sensors.getTempCByIndex(0);
  Serial.println(temperature);
  
  if(temperature > 20)
  {
     HotFlash();
  }

  /*============ Night sweats =================*/

  String currentTime  = String(hour());
  int Time = currentTime.toInt();
  if(Time > 19 || Time < 6)
  {
    if(humidity > 55)
    {
      HotFlash();
    }
    
  }

   /*========= Hydration assistance ===========*/

   if( Time == 7)
    {
      timer.run();
    }
   if(Time == 22)
    {
      timer.setInterval(32400000L,notification); 
    }
   if(humidity < 40)
   { 
     //Normal Humidity, 8 glass water per day
     timer.setInterval(6750000L,notification);
   }
   else if(humidity > 40 && humidity < 55)
    { 
      //High Humidity, 12 glass water per day
      timer.setInterval(4500000L,notification);
    } 
   else if(humidity > 55 ) 
    { 
      //Dehydration, 15 glass water per day
      timer.setInterval(3600000L,notification); 
    }

}

BlynkProvisioning.h

C Header File
/**************************************************************
 * This is a DEMO. You can use it only for development and testing.
 *
 * If you would like to add these features to your product,
 * please contact Blynk for Business:
 *
 *                  http://www.blynk.io/
 *
 **************************************************************/

extern "C" {
  #include "user_interface.h"
}
#include "Settings.h"
#include "BlynkState.h"
#include "ConfigStore.h"
#include "ResetButton.h"
#include "ConfigMode.h"
#include "OTA.h"

inline
void BlynkState::set(State m) {
  if (state != m) {
    DEBUG_PRINT(String(StateStr[state]) + " => " + StateStr[m]);
    state = m;
    //indicator.updateState();
  }
}

class Provisioning {

public:
  void begin()
  {
    DEBUG_PRINT("");
    DEBUG_PRINT("Hardware v" + String(BOARD_HARDWARE_VERSION));
    DEBUG_PRINT("Firmware v" + String(BOARD_FIRMWARE_VERSION));

    randomSeed(ESP.getChipId());

    button_init();
    config_init();

    if (configStore.flagConfig) {
      BlynkState::set(MODE_CONNECTING_NET);
    } else {
      BlynkState::set(MODE_WAIT_CONFIG);
    }
  }

  void run() {
    switch (BlynkState::get()) {
    case MODE_WAIT_CONFIG:       
    case MODE_CONFIGURING:       enterConfigMode();    break;
    case MODE_CONNECTING_NET:    enterConnectNet();    break;
    case MODE_CONNECTING_CLOUD:  enterConnectCloud();  break;
    case MODE_RUNNING:           Blynk.run();          break;
    case MODE_OTA_UPGRADE:       enterOTA();           break;
    case MODE_SWITCH_TO_STA:     enterSwitchToSTA();   break;
    case MODE_RESET_CONFIG:      enterResetConfig();   break;
    default:                     enterError();         break;
    }
  }

};

Provisioning BlynkProvisioning;

BlynkState.h

C Header File
/**************************************************************
 * This is a DEMO. You can use it only for development and testing.
 *
 * If you would like to add these features to your product,
 * please contact Blynk for Business:
 *
 *                  http://www.blynk.io/
 *
 **************************************************************/

enum State {
  MODE_WAIT_CONFIG,
  MODE_CONFIGURING,
  MODE_CONNECTING_NET,
  MODE_CONNECTING_CLOUD,
  MODE_RUNNING,
  MODE_OTA_UPGRADE,
  MODE_SWITCH_TO_STA,
  MODE_RESET_CONFIG,
  MODE_ERROR,

  MODE_MAX_VALUE
};

#if defined(APP_DEBUG)
const char* StateStr[MODE_MAX_VALUE] = {
  "WAIT_CONFIG",
  "CONFIGURING",
  "CONNECTING_NET",
  "CONNECTING_CLOUD",
  "RUNNING",
  "OTA_UPGRADE",
  "SWITCH_TO_STA",
  "RESET_CONFIG",
  "ERROR"
};
#endif

namespace BlynkState
{
  volatile State state;

  State get()        { return state; }
  bool  is (State m) { return (state == m); }
  void  set(State m);
};

ConfigMode.h

C Header File
/**************************************************************
 * This is a DEMO. You can use it only for development and testing.
 *
 * If you would like to add these features to your product,
 * please contact Blynk for Business:
 *
 *                  http://www.blynk.io/
 *
 **************************************************************/

#include <ESP8266WiFi.h>
#include <ESP8266WebServer.h>
#include <ESP8266HTTPUpdateServer.h>
#include <DNSServer.h>

ESP8266WebServer server(WIFI_AP_CONFIG_PORT);
ESP8266HTTPUpdateServer httpUpdater;
DNSServer dnsServer;
const byte DNS_PORT = 53;

const char* config_form = R"html(
<!DOCTYPE HTML><html>
<form method='get' action='config'>
  <label>WiFi SSID: </label><input type="text" name="ssid" length=32 required="required"><br/>
  <label>Password:  </label><input type="text" name="pass" length=32><br/>
  <label>Auth token:</label><input type="text" name="blynk" placeholder="a0b1c2d..." pattern="[a-zA-Z0-9]{32}" maxlength="32" required="required"><br/>
  <label>Host: </label><input type="text" name="host" length=32><br/>
  <label>Port: </label><input type="number" name="port" value="80" min="1" max="65535"><br/>
  <input type='submit' value="Apply">
</form>
</html>
)html";

void restartMCU() {
  ESP.restart();
}

void enterConfigMode()
{
  WiFi.mode(WIFI_OFF);
  delay(100);
  WiFi.mode(WIFI_AP);
  WiFi.softAPConfig(WIFI_AP_IP, WIFI_AP_IP, WIFI_AP_Subnet);
  WiFi.softAP(PRODUCT_WIFI_SSID);
  delay(500);
  IPAddress myIP = WiFi.softAPIP();
  DEBUG_PRINT(String("AP SSID: ") + PRODUCT_WIFI_SSID);
  DEBUG_PRINT(String("AP IP:   ") + myIP[0] + "." + myIP[1] + "." + myIP[2] + "." + myIP[3]);

  if (myIP == (uint32_t)0)
  {
    BlynkState::set(MODE_ERROR);
    return;
  }

  // Set up DNS Server
  dnsServer.setTTL(300); // Time-to-live 300s
  dnsServer.setErrorReplyCode(DNSReplyCode::ServerFailure); // Return code for non-accessible domains
#ifdef WIFI_CAPTIVE_PORTAL_ENABLE
  dnsServer.start(DNS_PORT, "*", WiFi.softAPIP()); // Point all to our IP
  server.onNotFound(handleRoot);
#else
  dnsServer.start(DNS_PORT, BOARD_CONFIG_AP_URL, WiFi.softAPIP());
  DEBUG_PRINT(String("AP URL:  ") + BOARD_CONFIG_AP_URL);
#endif

  httpUpdater.setup(&server);

  server.on("/", []() {
    server.send(200, "text/html", config_form);
  });
  server.on("/config", []() {
    String ssid = server.arg("ssid");
    String ssidManual = server.arg("ssidManual");
    String pass = server.arg("pass");
    if (ssidManual != "") {
      ssid = ssidManual;
    }
    String token = server.arg("blynk");
    String host  = server.arg("host");
    String port  = server.arg("port");

    String content;
    unsigned statusCode;

    DEBUG_PRINT(String("WiFi SSID: ") + ssid + " Pass: " + pass);
    DEBUG_PRINT(String("Blynk cloud: ") + token + " @ " + host + ":" + port);

    if (token.length() == 32 && ssid.length() > 0) {
      configStore.flagConfig = false;
      CopyString(ssid, configStore.wifiSSID);
      CopyString(pass, configStore.wifiPass);
      CopyString(token, configStore.cloudToken);
      if (host.length()) {
        CopyString(host,  configStore.cloudHost);
      }
      if (port.length()) {
        configStore.cloudPort = port.toInt();
      }

      content = R"json({"status":"ok","msg":"Configuration saved"})json";
      statusCode = 200;
      server.send(statusCode, "application/json", content);

      BlynkState::set(MODE_SWITCH_TO_STA);
    } else {
      DEBUG_PRINT("Configuration invalid");
      content = R"json({"status":"error","msg":"Configuration invalid"})json";
      statusCode = 404;
      server.send(statusCode, "application/json", content);
    }
  });
  server.on("/board_info.json", []() {
    char buff[256];
    snprintf(buff, sizeof(buff),
      R"json({"board":"%s","vendor":"%s","tmpl_id":"%s","fw_ver":"%s","hw_ver":"%s"})json",
      BOARD_NAME,
      BOARD_VENDOR,
      BOARD_TEMPLATE_ID,
      BOARD_FIRMWARE_VERSION,
      BOARD_HARDWARE_VERSION
    );
    server.send(200, "application/json", buff);
  });
  server.on("/reset", []() {
    BlynkState::set(MODE_RESET_CONFIG);
    server.send(200, "application/json", R"json({"status":"ok","msg":"Configuration reset"})json");
  });
  server.on("/reboot", []() {
    restartMCU();
  });

  server.begin();

  while (BlynkState::is(MODE_WAIT_CONFIG) || BlynkState::is(MODE_CONFIGURING)) {
    dnsServer.processNextRequest();
    server.handleClient();
    if (BlynkState::is(MODE_WAIT_CONFIG) && WiFi.softAPgetStationNum() > 0) {
      BlynkState::set(MODE_CONFIGURING);
    } else if (BlynkState::is(MODE_CONFIGURING) && WiFi.softAPgetStationNum() == 0) {
      BlynkState::set(MODE_WAIT_CONFIG);
    }
  }

  server.stop();
}

void enterConnectNet() {
  BlynkState::set(MODE_CONNECTING_NET);
  DEBUG_PRINT(String("Connecting to WiFi: ") + configStore.wifiSSID);
  
  WiFi.mode(WIFI_STA);
  if (!WiFi.begin(configStore.wifiSSID, configStore.wifiPass))
    return;
  
  unsigned long timeoutMs = millis() + WIFI_NET_CONNECT_TIMEOUT;
  while ((timeoutMs > millis()) && (WiFi.status() != WL_CONNECTED))
  {
    delay(100);
    if (!BlynkState::is(MODE_CONNECTING_NET)) {
      WiFi.disconnect();
      return;
    }
  }
  
  if (WiFi.status() == WL_CONNECTED) {
    BlynkState::set(MODE_CONNECTING_CLOUD);
  } else {
    BlynkState::set(MODE_ERROR);
  }
}

void enterConnectCloud() {
  BlynkState::set(MODE_CONNECTING_CLOUD);

  Blynk.disconnect();
  Blynk.config(configStore.cloudToken, configStore.cloudHost, configStore.cloudPort);
  Blynk.connect(0);

  unsigned long timeoutMs = millis() + WIFI_CLOUD_CONNECT_TIMEOUT;
  while ((timeoutMs > millis()) &&
        (Blynk.connected() == false))
  {
    Blynk.run();
    if (!BlynkState::is(MODE_CONNECTING_CLOUD)) {
      Blynk.disconnect();
      return;
    }
  }
  
  if (Blynk.connected()) {
    BlynkState::set(MODE_RUNNING);

    if (!configStore.flagConfig) {
      configStore.flagConfig = true;
      config_save();
      DEBUG_PRINT("Configuration stored to flash");
    }
  } else {
    BlynkState::set(MODE_ERROR);
  }
}

void enterSwitchToSTA() {
  BlynkState::set(MODE_SWITCH_TO_STA);

  DEBUG_PRINT("Switching to STA...");

  WiFi.mode(WIFI_OFF);
  delay(1000);
  WiFi.mode(WIFI_STA);

  BlynkState::set(MODE_CONNECTING_NET);
}

void enterError() {
  BlynkState::set(MODE_ERROR);
  
  unsigned long timeoutMs = millis() + 10000;
  while (timeoutMs > millis() || g_buttonPressed)
  {
    delay(10);
    if (!BlynkState::is(MODE_ERROR)) {
      return;
    }
  }
  DEBUG_PRINT("Restarting after error.");
  delay(10);

  restartMCU();
}

ConfigStore.h

C Header File
/**************************************************************
 * This is a DEMO. You can use it only for development and testing.
 *
 * If you would like to add these features to your product,
 * please contact Blynk for Business:
 *
 *                  http://www.blynk.io/
 *
 **************************************************************/

struct ConfigStore {
  uint32_t  magic;
  char      version[9];
  uint8_t   flagConfig:1;
  uint8_t   flagApFail:1;
  uint8_t   flagSelfTest:1;

  char      wifiSSID[34];
  char      wifiPass[34];

  char      cloudToken[34];
  char      cloudHost[34];
  uint16_t  cloudPort;

  uint16_t  checksum;
} __attribute__((packed));

ConfigStore configStore;

const ConfigStore configDefault = {
  0x626C6E6B,
  BOARD_FIRMWARE_VERSION,
  0, 0, 0,
  
  "",
  "",
  
  "invalid token",
  "blynk-cloud.com", 80,
  0
};

#include <EEPROM.h>
#define EEPROM_CONFIG_START 0

void config_load()
{
  memset(&configStore, 0, sizeof(configStore));
  EEPROM.get(EEPROM_CONFIG_START, configStore);
  if (configStore.magic != configDefault.magic) {
    DEBUG_PRINT("Using default config.");
    configStore = configDefault;
    return;
  }
}

bool config_save()
{
  EEPROM.put(EEPROM_CONFIG_START, configStore);
  EEPROM.commit();
  return true;
}

bool config_init()
{
  EEPROM.begin(sizeof(ConfigStore));
  config_load();
  return true;
}

void enterResetConfig()
{
  DEBUG_PRINT("Resetting configuration!");
  configStore = configDefault;
  config_save();
  BlynkState::set(MODE_WAIT_CONFIG);
}

template<typename T, int size>
void CopyString(const String& s, T(&arr)[size]) {
  s.toCharArray(arr, size);
}

OTA.h

C Header File
 /**************************************************************
 * This is a DEMO. You can use it only for development and testing.
 *
 * If you would like to add these features to your product,
 * please contact Blynk for Business:
 *
 *                  http://www.blynk.io/
 *
 **************************************************************
 *
 * How to trigger an OTA update?
 *   1. In Arduino IDE menu: Sketch -> Export compiled Binary
 *   2. Open console, navigate to the sketch directory
 *   3.a Trigger update using HTTPS API on local server for specific hardware:
 *       curl -v -F file=@Template_ESP8266.ino.nodemcu.bin --insecure -u admin@blynk.cc:admin https://localhost:9443/admin/ota/start?token=123
 *   3.b Trigger update using HTTPS API on local server for all hardware:
 *       curl -v -F file=@Template_ESP8266.ino.nodemcu.bin --insecure -u admin@blynk.cc:admin https://localhost:9443/admin/ota/start
 *   3.c Trigger update using HTTPS API on local server for single user:
 *       curl -v -F file=@Template_ESP8266.ino.nodemcu.bin --insecure -u admin@blynk.cc:admin https://localhost:9443/admin/ota/start?user=pupkin@gmail.com
 *   3.d Trigger update using HTTPS API on local server for single user and specific project:
 *       curl -v -F file=@Template_ESP8266.ino.nodemcu.bin --insecure -u admin@blynk.cc:admin https://localhost:9443/admin/ota/start?user=pupkin@gmail.com&project=123
 * More about ESP8266 OTA updates:
 *  https://github.com/esp8266/Arduino/blob/master/doc/ota_updates/readme.md
 */

#include <ESP8266HTTPClient.h>
#include <ESP8266httpUpdate.h>

String overTheAirURL;

BLYNK_WRITE(InternalPinOTA) {
  overTheAirURL = param.asString();

  // Disconnect, not to interfere with OTA process
  Blynk.disconnect();

  // Start OTA
  BlynkState::set(MODE_OTA_UPGRADE);
  delay(500);
}

void enterOTA() {
  BlynkState::set(MODE_OTA_UPGRADE);

  DEBUG_PRINT(String("Firmware update URL: ") + overTheAirURL);
  switch (ESPhttpUpdate.update(overTheAirURL, BOARD_FIRMWARE_VERSION)) {
  case HTTP_UPDATE_FAILED:
    DEBUG_PRINT(String("Firmware update failed (error ") + ESPhttpUpdate.getLastError() + "): " + ESPhttpUpdate.getLastErrorString());
    BlynkState::set(MODE_ERROR);
    break;
  case HTTP_UPDATE_NO_UPDATES:
    DEBUG_PRINT("No firmware updates available.");
    BlynkState::set(MODE_CONNECTING_CLOUD);
    break;
  case HTTP_UPDATE_OK:
    DEBUG_PRINT("Firmware update: OK.");
    delay(10);
    restartMCU();
    break;
  }
}

ResetButton.h

C Header File
/**************************************************************
 * This is a DEMO. You can use it only for development and testing.
 *
 * If you would like to add these features to your product,
 * please contact Blynk for Business:
 *
 *                  http://www.blynk.io/
 *
 **************************************************************/

volatile bool     g_buttonPressed = false;
volatile uint32_t g_buttonPressTime = -1;

void button_action(void)
{
  BlynkState::set(MODE_RESET_CONFIG);
}

void button_change(void)
{
#if BOARD_BUTTON_ACTIVE_LOW
  g_buttonPressed = !digitalRead(BOARD_BUTTON_PIN);
#else
  g_buttonPressed = digitalRead(BOARD_BUTTON_PIN);
#endif

  if (g_buttonPressed) {
    DEBUG_PRINT("Hold the button to reset configuration...");
    g_buttonPressTime = millis();
  } else {
    uint32_t buttonHoldTime = millis() - g_buttonPressTime;
    if (buttonHoldTime >= BUTTON_HOLD_TIME_ACTION) {
      button_action();
    }
    g_buttonPressTime = -1;
  }
}

void button_init()
{
#if BOARD_BUTTON_ACTIVE_LOW
  pinMode(BOARD_BUTTON_PIN, INPUT_PULLUP);
#else
  pinMode(BOARD_BUTTON_PIN, INPUT);
#endif
  attachInterrupt(BOARD_BUTTON_PIN, button_change, CHANGE);
}

Settings.h

C Header File
/*
 * General options
 */

#define BOARD_FIRMWARE_VERSION        "1.0.1"
#define BOARD_HARDWARE_VERSION        "1.0.0"

#define BOARD_NAME                    "Product Name"        // Name of your product. Should match App Export request info.
#define BOARD_VENDOR                  "Company Name"        // Name of your company. Should match App Export request info.
#define BOARD_TEMPLATE_ID             "TMPL0000"

#define PRODUCT_WIFI_SSID             "SmartVest"         // Name of the device, to be displayed during configuration. Should match export request info.
#define BOARD_CONFIG_AP_URL           "our-product.cc"      // Config page will be available in a browser at 'http://our-product.cc/'

/*
 * Board configuration (see examples below).
 */

#if defined(USE_CUSTOM_BOARD)

  // Custom board configuration
  #define BOARD_BUTTON_PIN            0                     // Pin where user button is attached
  #define BOARD_BUTTON_ACTIVE_LOW     true                  // true if button is "active-low"

  #define BOARD_LED_PIN               2                     // Set LED pin - if you have a single-color LED attached
  //#define BOARD_LED_PIN_R           15                    // Set R,G,B pins - if your LED is PWM RGB 
  //#define BOARD_LED_PIN_G           12
  //#define BOARD_LED_PIN_B           13
  //#define BOARD_LED_PIN_WS2812      4                     // Set if your LED is WS2812 RGB
  #define BOARD_LED_INVERSE           false                 // true if LED is common anode, false if common cathode
  #define BOARD_LED_BRIGHTNESS        32                    // 0..255 brightness control

#elif defined(USE_NODE_MCU_BOARD)

  #warning "NodeMCU board selected"

  // Example configuration for NodeMCU v1.0 Board
  #define BOARD_BUTTON_PIN            0
  #define BOARD_BUTTON_ACTIVE_LOW     true

  #define BOARD_LED_PIN_R             D8
  #define BOARD_LED_PIN_G             D7
  #define BOARD_LED_PIN_B             D6
  #define BOARD_LED_INVERSE           false
  #define BOARD_LED_BRIGHTNESS        32

#elif defined(USE_SPARKFUN_BLYNK_BOARD)

  #warning "Sparkfun Blynk board selected"

  // Example configuration for SparkFun Blynk Board
  #define BOARD_BUTTON_PIN            0
  #define BOARD_BUTTON_ACTIVE_LOW     true

  #define BOARD_LED_PIN_WS2812        4
  #define BOARD_LED_BRIGHTNESS        32

#elif defined(USE_WITTY_CLOUD_BOARD)

  #warning "Witty Cloud board selected"

  // Example configuration for Witty cloud Board
  #define BOARD_BUTTON_PIN            4
  #define BOARD_BUTTON_ACTIVE_LOW     true

  #define BOARD_LED_PIN_R             15
  #define BOARD_LED_PIN_G             12
  #define BOARD_LED_PIN_B             13
  #define BOARD_LED_INVERSE           false
  #define BOARD_LED_BRIGHTNESS        32

#else
  #error "No board selected"
#endif


/*
 * Advanced options
 */

#define BUTTON_HOLD_TIME_INDICATION   3000
#define BUTTON_HOLD_TIME_ACTION       10000

#define BOARD_PWM_MAX                 1023

#define WIFI_NET_CONNECT_TIMEOUT      30000
#define WIFI_CLOUD_CONNECT_TIMEOUT    15000
#define WIFI_AP_CONFIG_PORT           80
#define WIFI_AP_IP                    IPAddress(192, 168, 4, 1)
#define WIFI_AP_Subnet                IPAddress(255, 255, 255, 0)
//#define WIFI_CAPTIVE_PORTAL_ENABLE

#define USE_TICKER
//#define USE_TIMER_ONE
//#define USE_TIMER_THREE

#if defined(APP_DEBUG)
  #define DEBUG_PRINT(...) BLYNK_LOG1(__VA_ARGS__)
#else
  #define DEBUG_PRINT(...)
#endif

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Muddy_Chachan

Muddy_Chachan

10 projects • 35 followers
HARD CORE TINKERER
Shebin Jose Jacob

Shebin Jose Jacob

9 projects • 34 followers
I know only one language, the language of 0's and 1's

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