温控模拟网管 机智云

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double Fahrenheit(double celsius)
{
return 1.8 * celsius + 32;
} //摄氏温度度转化为华氏温度

double Kelvin(double celsius)
{
return celsius + 273.15;
} //摄氏温度转化为开氏温度

// 露点（点在此温度时，空气饱和并产生露珠）
// 参考: [url=http://wahiduddin.net/calc/density_algorithms.htm]http://wahiduddin.net/calc/density_algorithms.htm[/url]
double dewPoint(double celsius, double humidity)
{
double A0 = 373.15 / (273.15 + celsius);
double SUM = -7.90298 * (A0 - 1);
SUM += 5.02808 * log10(A0);
SUM += -1.3816e-7 * (pow(10, (11.344 * (1 - 1 / A0))) - 1) ;
SUM += 8.1328e-3 * (pow(10, (-3.49149 * (A0 - 1))) - 1) ;
SUM += log10(1013.246);
double VP = pow(10, SUM - 3) * humidity;
double T = log(VP / 0.61078); // temp var
return (241.88 * T) / (17.558 - T);
}

// 快速计算露点，速度是5倍dewPoint()
// 参考: [url=http://en.wikipedia.org/wiki/Dew_point]http://en.wikipedia.org/wiki/Dew_point[/url]
double dewPointFast(double celsius, double humidity)
{
double a = 17.271;
double b = 237.7;
double temp = (a * celsius) / (b + celsius) + log(humidity / 100);
double Td = (b * temp) / (a - temp);
return Td;
}
#include <Gizwits.h>
#include <Wire.h>
#include <SoftwareSerial.h>
#include <dht11.h>
SoftwareSerial mySerial(A2, A3); // A2 -> RX, A3 -> TX
dht11 DHT11;

#define DHT11PIN A0
Gizwits myGizwits;
double d=1;
#define KEY1 6
#define KEY2 7
#define KEY1_SHORT_PRESS 1
#define KEY1_LONG_PRESS 2
#define KEY2_SHORT_PRESS 4
#define KEY2_LONG_PRESS 8
#define NO_KEY 0
#define KEY_LONG_TIMER 3
unsigned long Last_KeyTime = 0;

unsigned long gokit_time_s(void)
{
return millis() / 1000;
}

char gokit_key1down(void)
{
unsigned long keep_time = 0;
if (digitalRead(KEY1) == LOW)
{
delay(100);
if (digitalRead(KEY1) == LOW)
{
keep_time = gokit_time_s();
while (digitalRead(KEY1) == LOW)
{
if ((gokit_time_s() - keep_time) > KEY_LONG_TIMER)
{
Last_KeyTime = gokit_time_s();
return KEY1_LONG_PRESS;
}
} //until open the key

  if ((gokit_time_s() - Last_KeyTime) > KEY_LONG_TIMER)
  {
    return KEY1_SHORT_PRESS;
  }
  return 0;
}
return 0;

}
return 0;
}

char gokit_key2down(void)
{
unsigned long keep_time = 0;
if (digitalRead(KEY2) == LOW)
{
delay(100);
if (digitalRead(KEY2) == LOW)
{
keep_time = gokit_time_s();
while (digitalRead(KEY2) == LOW) //until open the key
{

    if ((gokit_time_s() - keep_time) > KEY_LONG_TIMER)
    {
      Last_KeyTime = gokit_time_s();
      return KEY2_LONG_PRESS;
    }
  }

  if ((gokit_time_s() - Last_KeyTime) > KEY_LONG_TIMER)
  {
    return KEY2_SHORT_PRESS;
  }
  return 0;
}
return 0;

}
return 0;
}

char gokit_keydown(void)
{
char ret = 0;
ret |= gokit_key2down();
ret |= gokit_key1down();
return ret;

}

/**

• KEY_Handle
• @param none
• @return none
  /
  void KEY_Handle(void)
  {
  / Press for over than 3 second is Long Press */
  switch (gokit_keydown())
  {
  case KEY1_SHORT_PRESS:
  mySerial.println(F("KEY1_SHORT_PRESS , Production Test Mode "));
  myGizwits.setBindMode(WIFI_PRODUCTION_TEST);
  break;
  case KEY1_LONG_PRESS:
  mySerial.println(F(“KEY1_LONG_PRESS ,Wifi Reset”));
  myGizwits.setBindMode(WIFI_RESET_MODE);
  break;
  case KEY2_SHORT_PRESS:
  mySerial.println(F(“KEY2_SHORT_PRESS Soft AP mode”));
  myGizwits.setBindMode(WIFI_SOFTAP_MODE);
  //Soft AP mode
  break;
  case KEY2_LONG_PRESS:
  mySerial.println(F(“KEY2_LONG_PRESS ,AirLink mode”));
  myGizwits.setBindMode(WIFI_AIRLINK_MODE);
  digitalWrite(4,HIGH);
  delay(1000);
  digitalWrite(4,LOW);
  break;
  default:
  break;
  }
  }

void setup() {
// put your setup code here, to run once:

mySerial.begin(115200);
pinMode(KEY1, INPUT_PULLUP);
pinMode(KEY2, INPUT_PULLUP);
pinMode(4,OUTPUT);//beeWIFI_AIRLINK成功报警提示这里是配网提示
pinMode(A0,INPUT);//温湿度传感器
pinMode(2,OUTPUT);//开关4
pinMode(3,OUTPUT);//开关5
Serial.begin(9600);
myGizwits.begin();

}
void wifiStatusHandle()
{
if (myGizwits.wifiHasBeenSet(WIFI_SOFTAP))
{
mySerial.println(F(“WIFI_SOFTAP!”));
}

if (myGizwits.wifiHasBeenSet(WIFI_AIRLINK))
{
mySerial.println(F(“WIFI_AIRLINK!”));
}

if (myGizwits.wifiHasBeenSet(WIFI_STATION))
{
mySerial.println(F(“WIFI_STATION!”));
}

if (myGizwits.wifiHasBeenSet(WIFI_CON_ROUTER))
{
mySerial.println(F(“WIFI_CON_ROUTER!”));
}

if (myGizwits.wifiHasBeenSet(WIFI_DISCON_ROUTER))
{
mySerial.println(F(“WIFI_DISCON_ROUTER!”));
}

if (myGizwits.wifiHasBeenSet(WIFI_CON_M2M))
{
mySerial.println(F(“WIFI_CON_M2M!”));
}

if (myGizwits.wifiHasBeenSet(WIFI_DISCON_M2M))
{
mySerial.println(F(“WIFI_DISCON_M2M!”));
}
}
void loop() {
KEY_Handle();//key handle , network configure
wifiStatusHandle();//WIFI Status Handle
int chk = DHT11.read(DHT11PIN);

unsigned long varW_t = (float)DHT11.temperature;//Add Sensor Data Collection
myGizwits.write(VALUE_t, varW_t);
unsigned long varW_s = (float)DHT11.humidity ;//Add Sensor Data Collection
myGizwits.write(VALUE_s, varW_s);

bool varR_W = 0;
if(myGizwits.hasBeenSet(EVENT_W))
{
myGizwits.read(EVENT_W,&varR_W);//Address for storing data

if(varR_W==1)
{
digitalWrite(2,HIGH);

  }
 else{
 digitalWrite(2,LOW);

}
}
unsigned long varR_pwm = 0;
if(myGizwits.hasBeenSet(EVENT_pwm))
{
myGizwits.read(EVENT_pwm,&varR_pwm);//Address for storing data
d=varR_pwm*(varR_pwm-14.8);
analogWrite(3,d);

}

myGizwits.process();
}