case 3:
l.push_back("illuminance");
l.push_back("Beleuchtungsstärke");
- l.push_back("lux");
+ l.push_back("lx");
break;
case 4:
l.push_back("humidity");
l.push_back("Widerstand");
l.push_back("kOhm");
break;
+ case 12:
+ l.push_back("wind speed");
+ l.push_back("Windgeschwindigkeit");
+ l.push_back("m/s");
+ break;
+ case 13:
+ l.push_back("wind speed max");
+ l.push_back("Maximale Windgeschwindigkeit");
+ l.push_back("m/s");
+ break;
+ case 14:
+ l.push_back("wind direction");
+ l.push_back("Windrichtung");
+ l.push_back("°");
+ break;
+ case 15:
+ l.push_back("wind direction variance");
+ l.push_back("Varianz der Windrichtung");
+ l.push_back("°");
+ break;
+ case 16:
+ l.push_back("illuminance red");
+ l.push_back("Beleuchtungsstärke Rot");
+ l.push_back("lx");
+ case 17:
+ l.push_back("illuminance green");
+ l.push_back("Beleuchtungsstärke Grün");
+ l.push_back("lx");
+ case 18:
+ l.push_back("illuminance blue");
+ l.push_back("Beleuchtungsstärke Blau");
+ l.push_back("lx");
+
+ case 19:
+ l.push_back("particulate mass concentration PM1");
+ l.push_back("Feinstaubkonzentration PM1");
+ l.push_back("µg/m³");
+ case 20:
+ l.push_back("particulate mass concentration PM2.5");
+ l.push_back("Feinstaubkonzentration PM2.5");
+ l.push_back("µg/m³");
+ case 21:
+ l.push_back("particulate mass concentration PM4");
+ l.push_back("Feinstaubkonzentration PM4");
+ l.push_back("µg/m³");
+ case 22:
+ l.push_back("particulate mass concentration PM10");
+ l.push_back("Feinstaubkonzentration PM10");
+ l.push_back("µg/m³");
+ case 23:
+ l.push_back("number concentration PM0.5");
+ l.push_back("Partikelzahl PM0.5");
+ l.push_back("#/cm³");
+ case 24:
+ l.push_back("number concentration PM1");
+ l.push_back("Partikelzahl PM1");
+ l.push_back("#/cm³");
+ case 25:
+ l.push_back("number concentration PM2.5");
+ l.push_back("Partikelzahl PM2.5");
+ l.push_back("#/cm³");
+ case 26:
+ l.push_back("number concentration PM4");
+ l.push_back("Partikelzahl PM4");
+ l.push_back("#/cm³");
+ case 27:
+ l.push_back("number concentration PM10");
+ l.push_back("Partikelzahl PM10");
+ l.push_back("#/cm³");
+ case 28:
+ l.push_back("typical particle size");
+ l.push_back("Durchschnittliche Partikelgröße");
+ l.push_back("µm");
+
+
+
+
default:
l.push_back("");
l.push_back("");
case 14:return (V[vn] - 32767.0) / 100.0; break;
case 15:return exp((V[vn]-32767.0)/1000.0); break;
case 16:return V[vn]/32.0; break;
- case 17:return 5120.0/V[vn]; break; //Current of DS2438 with 0.025 Ohm;
- default:return 0;
+ case 17:return V[vn]*0.2441/1000.0; break; //Vsens DS2438
+ case 18:return V[vn]/8.0;break;
+ case 19:return V[vn]/500.0*14.0;break; //Test
+ case 20:return V[vn]*0.5+700;break;
+ case 21:return V[vn]+1280; break;
+ case 22:return V[vn]*10;break;
+ case 23:return V[vn]*0.025+700.0;break;
+ case 24:return V[vn]*1.1/1024.0;break;
+ case 25:return V[vn]*3.0/1024.0;break;
+ case 26:return V[vn]*5.0/1024.0;break;
+ case 27:return ((double)V[2]+(double)V[1]/1000.0)/8.0;break;
+ case 28:return exp(V[vn]/2560.0);break;
+ case 29:return ((double)V[1]*10.0+(double)V[2]/100.0);break;
+ case 30: return V[vn] / 2.0; break;
+ case 31: return V[vn] / 4.0; break;
+ case 32: return V[vn] / 5.0; break;
+ default:return V[vn];
}
}
case 17: s="MAX1164/TGS8100";break; // VOC-Sensor
case 18: s="TGS8100 direkt";break; // VOC-Sensor
case 19: s="DS2423";break; // Counter
+ case 20: s="Intern ADC";break;
+ case 21: s="SHT35";break; // Feuchte/Temperatur Bester
+ case 22: s="SHT31";break; // Feuchte/Temperautr
+ case 23: s="APDS-9960";break; // Feuchte/Temperautr
+ case 24: s="BMP680";break;
+ case 25: s="SGP30";break;
+ case 26: s="SGPC3";break;
+ case 27: s="iAQ-core C";break;
+ case 28: s="HDC2010";break;
+ case 29: s="LPS225HB";break;
+ case 30: s="SHTC3";break;
+ case 31: s="SPS30";break;
+ case 32: s="DHT11";break;
+ case 33: s="SCD30";break;
+ case 34: s="SCD40";break;
+
default: return "";
}
return s;