diff --git a/Teensy4.1_Datalogger new.ino b/Teensy4.1_Datalogger new.ino index 79f238f..0e4270f 100644 --- a/Teensy4.1_Datalogger new.ino +++ b/Teensy4.1_Datalogger new.ino @@ -2,7 +2,7 @@ // /* Name: Teensy4.1_Datalogger new.ino - Created: 03.05.2022 12:04:32 + Created: 31.08.2022 18:39:32 Author: GAMINGMASHEEN\Julian Graf */ @@ -49,11 +49,11 @@ const char software_name[] = "Software: Teensy_datalog V.2"; const int min_voltage_batterie = 13; const int fixed_resistor_temperatur = 500; -const int power_Temp_sensor = 34, power_Windfahne = 36, LED_Fail = 24, - LED_Write = 5, LED_Normal = 6, LED_Batterie = 7, +const int power_Temp_sensor = 34, power_Windfahne = 36, LED_Fail = 24, R_Temp_fix = 500, + LED_Write = 5, LED_Normal = 6, LED_Batterie = 7, Grenz_U_Batterie = 13, taster_manuell_speichern = 28, Windfahne = 20, T_sensor_input = 17, Batterie_input = 38; -int last_second, last_minute, last_hour; +int last_second, last_minute, last_hour, seconds_for_blink; struct calculations { @@ -114,7 +114,7 @@ public: struct anemomenter_maessurement { -public: +public: void setup(int pin) { this->reed_contact = Bounce(pin, 10); @@ -125,7 +125,7 @@ public: count_per_second++; } } - + void save_wind_speed() { wind_speed_per_second[saved_seconds] = 0.4 * count_per_second; saved_seconds++; @@ -144,15 +144,15 @@ public: file.printf("Arith. Mittel: % f,\tStandard Abw.: %f\t", values[i].arithmetic_mean, values[i].arithmetic_deviation); file.printf("Quadr. Mittel: % f,\tStandard Abw.: %f\t", values[i].square_mean, values[i].square_deviation); file.printf("Kub. Mittel: %f,\tStandard Abw.: %f\t", values[i].cubic_mean, values[i].cubic_deviation); - file.printf("Übersprungene Sek.: %i\n", values[i].seconds_skipped); + file.printf("Ãœbersprungene Sek.: %i\n", values[i].seconds_skipped); } - - file.printf("Übersprungene Min.: %i\n", 60 - saved_minutes); + + file.printf("Ãœbersprungene Min.: %i\n", 60 - saved_minutes); saved_minutes = 0; } - -private: + +private: int count_per_second = 0; int saved_seconds = 0; int saved_minutes = 0; @@ -164,14 +164,60 @@ private: }anemometer_1, anemometer_2, anemometer_3; +struct temp_sensor { +private: + int U_Temp; + int R_Temp; + float Temp = 0; + short int array_Temp_datenblatt[20] = { -30, -20, -10, 0, 10, 20, 25, 30, 40, 50, + 391, 424, 460, 498, 538, 581, 603, 626, 672, 722}; +public: + void measure() { + digitalWrite(power_Temp_sensor, HIGH); + U_Temp = analogRead(T_sensor_input); + digitalWrite(power_Temp_sensor, LOW); + R_Temp = R_Temp_fix / (1023 - U_Temp); + for (int t = 0; t < 9; t++) { + if ((R_Temp >= array_Temp_datenblatt[t + 10]) && (R_Temp <= array_Temp_datenblatt[t + 11])) { + Temp = array_Temp_datenblatt[t] + ((R_Temp - array_Temp_datenblatt[t + 10]) * (array_Temp_datenblatt[t + 1] - array_Temp_datenblatt[t]) / (array_Temp_datenblatt[t + 11] - array_Temp_datenblatt[t + 10])); + } + } + } -// Define Function Prototypes that use User Types below here or use a .h file -// + void file_print() { + printf("Temperatur: %f.2 °C\n", Temp); + } +} temp_sensor_1; +struct wind_vain { +private: + float wind_sec; + float wind_summ = 0; + int values[60]; + int saved_minutes = 0; + +public: + void measure() { + digitalWrite(power_Windfahne, HIGH); + wind_sec = map(analogRead(Windfahne), 0, 1023, 20, 350); + digitalWrite(power_Windfahne, LOW); + wind_summ += wind_sec; + } + void calculate() { + values[saved_minutes] = wind_summ; + wind_summ = 0; + saved_minutes++; + } + void file_print() { + for (int i = 0; i < saved_minutes; i++) { + printf("Windrichtung in ° Winkel: %f.2\n", values[i]); + } + saved_minutes = 0; + } + +}wind_vain_1; -// Define Functions below here or use other .ino or cpp files -// void dateTime(uint16_t* date, uint16_t* time, uint8_t* ms10) { @@ -186,16 +232,16 @@ void dateTime(uint16_t* date, uint16_t* time, uint8_t* ms10) { } void write_sd() { + digitalWrite(LED_Write, HIGH); char file_name[50]; - FsDateTime::setCallback(dateTime); - + sprintf(file_name, "Windmessmast-%d.%d.%d_%d:%d.txt", year(), month(), day(), hour(), minute()); sd.begin(SD_CONFIG); if (file.open(file_name, FILE_WRITE)) { Serial.println("Start SD schreiben"); - file.println("Messdaten von Windmessmasst"); + file.println("Messdaten von Windmessmasst"); file.println(); file.println("Data logger : Teensy 4.1"); file.println(software_name); @@ -207,25 +253,47 @@ void write_sd() { anemometer_2.file_print(); file.println("Anemometer_3 Werte:"); anemometer_3.file_print(); + file.println("Temperatursensor_1 Werte:"); + temp_sensor_1.file_print(); + file.println("Windfahne_1 Werte:"); + wind_vain_1.file_print(); file.close(); Serial.println("Ende des Schreibvorgangs"); } - + digitalWrite(LED_Write, LOW); } + void every_second() { anemometer_1.save_wind_speed(); anemometer_2.save_wind_speed(); anemometer_3.save_wind_speed(); + wind_vain_1.measure(); + + if (digitalRead(taster_manuell_speichern) == HIGH){ + write_sd(); + } + + digitalWrite(LED_Normal, LOW); + seconds_for_blink++; + if (seconds_for_blink % 10 == 0) { + digitalWrite(LED_Normal, HIGH); + } last_second = second(); } void every_minute() { + anemometer_1.calculate(); anemometer_2.calculate(); anemometer_3.calculate(); + wind_vain_1.calculate(); + + if((analogRead(Batterie_input) * 15.3 / float(1023)) < Grenz_U_Batterie) { + digitalWrite(LED_Batterie, HIGH); + } last_minute = minute(); } @@ -269,7 +337,7 @@ void setup() anemometer_1.setup(2); anemometer_2.setup(9); anemometer_3.setup(22); - + seconds_for_blink = 0; Serial.println("Messung startet"); last_second = second(); @@ -296,4 +364,4 @@ void loop() } } } -} +} \ No newline at end of file