visus
/
teensy-sdfat
Obserwuj 1
Polub 0
Forkuj 0
Kod Zgłoszenia 0 Oczekujące zmiany 0 Wydania 0 Wiki Aktywność
Nie możesz wybrać więcej, niż 25 tematów Tematy muszą się zaczynać od litery lub cyfry, mogą zawierać myślniki ('-') i mogą mieć do 35 znaków.
47 Commity
1 Gałąź
Drzewo: 3205c6919d
Gałęzie Tagi
${ item.name }
Utwórz gałąź ${ searchTerm }
z '3205c6919d'
${ noResults }
teensy-sdfat/examples/examplesV1/LowLatencyLoggerADXL345/UserFunctions.cpp

UserFunctions.cpp 2.2KB
Czysty Zwykły widok Historia

SdFatEX and other features
8 lat temu
LowLatencyLogger mods
8 lat temu
SdFatEX and other features
8 lat temu
LowLatencyLogger mods
8 lat temu
SdFatEX and other features
8 lat temu
 12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364656667686970 
  1. #include "UserTypes.h"

  2. // User data functions.  Modify these functions for your data items.

  3. 

  4. // Start time for data

  5. static uint32_t startMicros;

  6. 

  7. const uint8_t ADXL345_CS = 9;

  8. 

  9. const uint8_t POWER_CTL = 0x2D;  //Power Control Register

  10. const uint8_t DATA_FORMAT = 0x31;

  11. const uint8_t DATAX0 = 0x32; //X-Axis Data 0

  12. const uint8_t DATAX1 = 0x33; //X-Axis Data 1

  13. const uint8_t DATAY0 = 0x34; //Y-Axis Data 0

  14. const uint8_t DATAY1 = 0x35; //Y-Axis Data 1

  15. const uint8_t DATAZ0 = 0x36; //Z-Axis Data 0

  16. const uint8_t DATAZ1 = 0x37; //Z-Axis Data 1

  17. 

  18. void writeADXL345Register(const uint8_t registerAddress, const uint8_t value) {

  19.   // Max SPI clock frequency is 5 MHz with CPOL = 1 and CPHA = 1.

  20.   SPI.beginTransaction(SPISettings(5000000, MSBFIRST, SPI_MODE3));  

  21.   digitalWrite(ADXL345_CS, LOW);

  22.   SPI.transfer(registerAddress);

  23.   SPI.transfer(value);

  24.   digitalWrite(ADXL345_CS, HIGH);

  25.   SPI.endTransaction();  

  26. }

  27. 

  28. void userSetup() {

  29.   SPI.begin();

  30.   pinMode(ADXL345_CS, OUTPUT);

  31.   digitalWrite(ADXL345_CS, HIGH);

  32.   //Put the ADXL345 into +/- 4G range by writing the value 0x01 to the DATA_FORMAT register.

  33.   writeADXL345Register(DATA_FORMAT, 0x01);

  34.   //Put the ADXL345 into Measurement Mode by writing 0x08 to the POWER_CTL register.

  35.   writeADXL345Register(POWER_CTL, 0x08);  //Measurement mode  

  36. }

  37. 

  38. // Acquire a data record.

  39. void acquireData(data_t* data) {

  40.   // Max SPI clock frequency is 5 MHz with CPOL = 1 and CPHA = 1.

  41.   SPI.beginTransaction(SPISettings(5000000, MSBFIRST, SPI_MODE3));

  42.   data->time = micros();

  43.   digitalWrite(ADXL345_CS, LOW);

  44.   // Read multiple bytes so or 0XC0 with address.

  45.   SPI.transfer(DATAX0 | 0XC0);

  46.   data->accel[0] = SPI.transfer(0) | (SPI.transfer(0) << 8);

  47.   data->accel[1] = SPI.transfer(0) | (SPI.transfer(0) << 8);

  48.   data->accel[2] = SPI.transfer(0) | (SPI.transfer(0) << 8); 

  49.   digitalWrite(ADXL345_CS, HIGH);

  50.   SPI.endTransaction();

  51. }

  52. 

  53. // Print a data record.

  54. void printData(Print* pr, data_t* data) {

  55.   if (startMicros == 0) {

  56.     startMicros = data->time;

  57.   }

  58.   pr->print(data->time - startMicros);

  59.   for (int i = 0; i < ACCEL_DIM; i++) {

  60.     pr->write(',');

  61.     pr->print(data->accel[i]);

  62.   }

  63.   pr->println();

  64. }

  65. 

  66. // Print data header.

  67. void printHeader(Print* pr) {

  68.   startMicros = 0;

  69.   pr->println(F("micros,ax,ay,az"));

  70. }