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Dependencies: DHT DS18B20 Decagon10HS DecagonEC-5 FastIO LightSensorALS-PT19 WaterMark200ss WeatherMeters mbed-src floathex1
Fork of testgeneral by
main.cpp@1:7f1e6470cc93, 2016-12-14 (annotated)
- Committer:
- agrosmart
- Date:
- Wed Dec 14 09:49:17 2016 +0000
- Revision:
- 1:7f1e6470cc93
- Parent:
- 0:232c507002f4
- Child:
- 2:a13c531579dd
_
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
javiersing | 0:232c507002f4 | 1 | #include "mbed.h" |
javiersing | 0:232c507002f4 | 2 | #include "LightSensor.h" |
javiersing | 0:232c507002f4 | 3 | #include "Decagon10HS.h" |
javiersing | 0:232c507002f4 | 4 | #include "DecagonEC-5.h" |
javiersing | 0:232c507002f4 | 5 | #include "DHT.h" |
javiersing | 0:232c507002f4 | 6 | #include "FastIO.h" |
javiersing | 0:232c507002f4 | 7 | #include "DS18B20.h" |
javiersing | 0:232c507002f4 | 8 | #include "WaterMark200ss.h" |
javiersing | 0:232c507002f4 | 9 | #include "WeatherMeters.h" |
javiersing | 0:232c507002f4 | 10 | #include "Anemometer.h" |
javiersing | 0:232c507002f4 | 11 | |
javiersing | 0:232c507002f4 | 12 | |
javiersing | 0:232c507002f4 | 13 | //Declaración de Puertos para cada sensor |
javiersing | 0:232c507002f4 | 14 | AnalogIn moisture10HS(A0); //Decagon 10HS en el A0 |
javiersing | 0:232c507002f4 | 15 | AnalogIn light(A1); //ALS-PT19LIGHT en el A1 |
javiersing | 0:232c507002f4 | 16 | AnalogIn moistureEC5(A2); //Decagon EC-5 en el A2 |
javiersing | 0:232c507002f4 | 17 | AnalogIn lightref(A3); //Referencia 3.3V en el A3 |
javiersing | 0:232c507002f4 | 18 | AnalogIn moisture200ss(A4); //WaterMark200ss en el A4 |
javiersing | 0:232c507002f4 | 19 | |
javiersing | 0:232c507002f4 | 20 | /*El sensor DS18B20 se |
javiersing | 0:232c507002f4 | 21 | define el pin en la |
javiersing | 0:232c507002f4 | 22 | librería DHT*/ //Ds18B20 en el D2 |
javiersing | 0:232c507002f4 | 23 | DHT dht22(PB_3,DHT22); //DHT22 en el D3 |
javiersing | 0:232c507002f4 | 24 | CWeatherMeters WeatherMeters(D4, D5, A5); //Weather Station Anemómetro D4, Veleta D5, Pluviómetro A5 |
javiersing | 0:232c507002f4 | 25 | |
agrosmart | 1:7f1e6470cc93 | 26 | //Declaración variables para sensores: |
agrosmart | 1:7f1e6470cc93 | 27 | float lightLvl = 0; // Sensor LUZ //Rango: 0.0 a 3.3 //2 |
agrosmart | 1:7f1e6470cc93 | 28 | float VWC10HS = 0; // Sensor 10HS //Rango: 0.0 a 3.4 //2 |
agrosmart | 1:7f1e6470cc93 | 29 | float VWCEC5 = 0; // Sensor EC-5 //Rango: 0.0 a 4 //2 |
agrosmart | 1:7f1e6470cc93 | 30 | float tempdht22 = 0; // Sensor DHT22 //Rango: -40.0 a 80 //4 |
agrosmart | 1:7f1e6470cc93 | 31 | float humdht22 = 0; // Sensor DHT22 //Rango: 0 a 100% //2 |
agrosmart | 1:7f1e6470cc93 | 32 | float tempDS18B20 = 0; // Sensor DS18B20 //Rango: -55.0 a 125.0 //3 |
agrosmart | 1:7f1e6470cc93 | 33 | float centibar = 0; // Sensor WaterMark 200ss //Rango: 0 a 240 //2 |
agrosmart | 1:7f1e6470cc93 | 34 | float rainfall = 0; // Weather Station //Rango: 0 a 100 //3 |
agrosmart | 1:7f1e6470cc93 | 35 | float windSpeed = 0; // Weather Station //Rango: 0 a 2000 //3 |
agrosmart | 1:7f1e6470cc93 | 36 | float maxWindSpeed = 0; // Weather Station //Rango: 0 a 2000 //3 |
agrosmart | 1:7f1e6470cc93 | 37 | float windDir = 0; // Weather Station //Rango: 0 a 337.5 //3 |
agrosmart | 1:7f1e6470cc93 | 38 | float value; |
javiersing | 0:232c507002f4 | 39 | |
agrosmart | 1:7f1e6470cc93 | 40 | void ReadSensors(); |
javiersing | 0:232c507002f4 | 41 | |
javiersing | 0:232c507002f4 | 42 | int main() |
javiersing | 0:232c507002f4 | 43 | { |
javiersing | 0:232c507002f4 | 44 | pc.baud(115200); |
javiersing | 0:232c507002f4 | 45 | DQ.output(); |
javiersing | 0:232c507002f4 | 46 | DQ = 0; |
javiersing | 0:232c507002f4 | 47 | DQ.input(); |
javiersing | 0:232c507002f4 | 48 | pc.printf("All Sensors Test \r\n"); |
javiersing | 0:232c507002f4 | 49 | pc.printf("Memory allocated for %d DS18B20.\r\n",MaxROMs); |
javiersing | 0:232c507002f4 | 50 | pc.printf("Scanning for devices...\r\n"); |
javiersing | 0:232c507002f4 | 51 | ow_reset(); |
javiersing | 0:232c507002f4 | 52 | FindDevices(); |
javiersing | 0:232c507002f4 | 53 | pc.printf("Scanning completed.\r\n"); |
javiersing | 0:232c507002f4 | 54 | |
javiersing | 0:232c507002f4 | 55 | |
javiersing | 0:232c507002f4 | 56 | while(1) { |
javiersing | 0:232c507002f4 | 57 | //Leer Sensores |
javiersing | 0:232c507002f4 | 58 | wait(1); |
agrosmart | 1:7f1e6470cc93 | 59 | ReadSensors(); //No hace lectura de la Temperatura con la ds18b20?? |
agrosmart | 1:7f1e6470cc93 | 60 | pc.printf("Direction: %s\n",windDir); |
javiersing | 0:232c507002f4 | 61 | pc.printf("Depth: %f\n",rainfall); |
javiersing | 0:232c507002f4 | 62 | pc.printf("Current speed: %f\n", windSpeed); |
javiersing | 0:232c507002f4 | 63 | pc.printf("Maximum speed: %f\n", maxWindSpeed); |
javiersing | 0:232c507002f4 | 64 | pc.printf("200ss Centibar: %2.2f\n", centibar); |
javiersing | 0:232c507002f4 | 65 | pc.printf("DHT22 Humidity: %.1f \n\r",humdht22); |
javiersing | 0:232c507002f4 | 66 | pc.printf("DHT22 Temp: %.1f C",tempdht22); |
javiersing | 0:232c507002f4 | 67 | pc.printf("EC-5 VWC: %2.2f VMC\r\n", VWCEC5); |
javiersing | 0:232c507002f4 | 68 | pc.printf("10HS VWC: %2.2f\r\n", VWC10HS); |
javiersing | 0:232c507002f4 | 69 | pc.printf("Light: %3.2f \r\n", lightLvl); |
javiersing | 0:232c507002f4 | 70 | ConvT(); // Todos los DS18B20 inician la conversión a temp |
javiersing | 0:232c507002f4 | 71 | wait_ms(750); // Tiempo minimo de conversion a 12-bit |
javiersing | 0:232c507002f4 | 72 | for(int i=1; i<=numROMs; i++) { // Bucle para todos los DS18B20 |
javiersing | 0:232c507002f4 | 73 | tempDS18B20 = Get_Temp(i); |
javiersing | 0:232c507002f4 | 74 | pc.printf("DS18B20 Temp: %08.4f Device: %02X%02X%02X%02X%02X%02X %03d\r\n",tempDS18B20,FoundROM[i][6],FoundROM[i][5],FoundROM[i][4],FoundROM[i][3],FoundROM[i][2],FoundROM[i][1],i); |
javiersing | 0:232c507002f4 | 75 | } |
javiersing | 0:232c507002f4 | 76 | pc.printf("\r\n"); |
javiersing | 0:232c507002f4 | 77 | wait(5.0f); |
javiersing | 0:232c507002f4 | 78 | } |
javiersing | 0:232c507002f4 | 79 | } |
javiersing | 0:232c507002f4 | 80 | |
agrosmart | 1:7f1e6470cc93 | 81 | /* |
agrosmart | 1:7f1e6470cc93 | 82 | Hay que organizar con funciones, una para petición de datos, otra para cambiarlos a HEX todo |
agrosmart | 1:7f1e6470cc93 | 83 | |
agrosmart | 1:7f1e6470cc93 | 84 | Hay que definir los datos en HEX, para que ocupen lo menos posibles, la temperatura x2 y a hex, y cosas así, para ocupar los menores bytes posibles uniendo |
agrosmart | 1:7f1e6470cc93 | 85 | todos y generando un buffer de envío |
agrosmart | 1:7f1e6470cc93 | 86 | |
agrosmart | 1:7f1e6470cc93 | 87 | Las definiciones de la placa tienen que estar como externas, para poder exportar el ejemplo e integrarlo con otros (algo así como el marlin) hay ejemplos |
agrosmart | 1:7f1e6470cc93 | 88 | de como se hace |
agrosmart | 1:7f1e6470cc93 | 89 | */ |
agrosmart | 1:7f1e6470cc93 | 90 | void ReadSensors() |
agrosmart | 1:7f1e6470cc93 | 91 | { |
agrosmart | 1:7f1e6470cc93 | 92 | lightLvl = readLightSensor(light,lightref); //Sensor de Luz |
agrosmart | 1:7f1e6470cc93 | 93 | VWC10HS = Moist10HS(moisture10HS); //Sensor 10HS |
agrosmart | 1:7f1e6470cc93 | 94 | VWCEC5 = MoistEC5(moistureEC5); //Sensor EC-5 |
agrosmart | 1:7f1e6470cc93 | 95 | tempdht22 = dht22.ReadTemperature(CELCIUS); //Sensor DHT22 |
agrosmart | 1:7f1e6470cc93 | 96 | humdht22 = dht22.ReadHumidity(); //Sensor DHT22 |
agrosmart | 1:7f1e6470cc93 | 97 | centibar = Moist200ss(moisture200ss); //Sensor WaterMark 200ss |
agrosmart | 1:7f1e6470cc93 | 98 | CWeatherMeters::SMeasurements Measurements; //Weather Station |
agrosmart | 1:7f1e6470cc93 | 99 | WeatherMeters.GetMeasurements(&Measurements); //Weather Station |
agrosmart | 1:7f1e6470cc93 | 100 | rainfall = Measurements.Rainfall; //Weather Station |
agrosmart | 1:7f1e6470cc93 | 101 | windSpeed = Measurements.WindSpeed; //Weather Station |
agrosmart | 1:7f1e6470cc93 | 102 | maxWindSpeed = Measurements.MaximumWindSpeed; //Weather Station |
agrosmart | 1:7f1e6470cc93 | 103 | windDir = Measurements.WindDirectionAngle; //Weather Station |
agrosmart | 1:7f1e6470cc93 | 104 | } |
agrosmart | 1:7f1e6470cc93 | 105 | char *float2Hex(float value) |
agrosmart | 1:7f1e6470cc93 | 106 | { |
agrosmart | 1:7f1e6470cc93 | 107 | int signo; // para las temperaturas |
agrosmart | 1:7f1e6470cc93 | 108 | int ent1; |
agrosmart | 1:7f1e6470cc93 | 109 | int dec1; |
agrosmart | 1:7f1e6470cc93 | 110 | char value2[5]; |
agrosmart | 1:7f1e6470cc93 | 111 | |
agrosmart | 1:7f1e6470cc93 | 112 | if(value<0) { |
agrosmart | 1:7f1e6470cc93 | 113 | signo = 1; // 1 es negativo, 0 es positivo |
agrosmart | 1:7f1e6470cc93 | 114 | value = value * -1; |
agrosmart | 1:7f1e6470cc93 | 115 | } else { |
agrosmart | 1:7f1e6470cc93 | 116 | signo = 0; |
agrosmart | 1:7f1e6470cc93 | 117 | } |
agrosmart | 1:7f1e6470cc93 | 118 | ent1 = value; |
agrosmart | 1:7f1e6470cc93 | 119 | dec1 = (value - ent1)*16; |
agrosmart | 1:7f1e6470cc93 | 120 | sprintf(value2, "%.1X.%.2X.%.1X\n\r", signo, ent1,dec1); //solo queda un decimal. para que queden dos decimales hay que multiplicar decimal por 10 |
agrosmart | 1:7f1e6470cc93 | 121 | return value2; |
agrosmart | 1:7f1e6470cc93 | 122 | } |
agrosmart | 1:7f1e6470cc93 | 123 | |
agrosmart | 1:7f1e6470cc93 | 124 | /* CALL char *temphex = temp2Hex(dht22); |
agrosmart | 1:7f1e6470cc93 | 125 | |
agrosmart | 1:7f1e6470cc93 | 126 | FUNCTION |
agrosmart | 1:7f1e6470cc93 | 127 | |
agrosmart | 1:7f1e6470cc93 | 128 | char * createStr() { |
agrosmart | 1:7f1e6470cc93 | 129 | |
agrosmart | 1:7f1e6470cc93 | 130 | char char1= 'm'; |
agrosmart | 1:7f1e6470cc93 | 131 | char char2= 'y'; |
agrosmart | 1:7f1e6470cc93 | 132 | |
agrosmart | 1:7f1e6470cc93 | 133 | char *str = (char *) malloc(sizeof(char) * 3); |
agrosmart | 1:7f1e6470cc93 | 134 | str[0] = char1; |
agrosmart | 1:7f1e6470cc93 | 135 | str[1] = char2; |
agrosmart | 1:7f1e6470cc93 | 136 | str[2] = '\0'; |
agrosmart | 1:7f1e6470cc93 | 137 | |
agrosmart | 1:7f1e6470cc93 | 138 | return str; |
agrosmart | 1:7f1e6470cc93 | 139 | |
agrosmart | 1:7f1e6470cc93 | 140 | } |
agrosmart | 1:7f1e6470cc93 | 141 | */ |