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- #include "UserTypes.h"
- // User data functions. Modify these functions for your data items.
-
- // Start time for data
- static uint32_t startMicros;
-
- const uint8_t ADXL345_CS = 9;
-
- const uint8_t POWER_CTL = 0x2D; //Power Control Register
- const uint8_t DATA_FORMAT = 0x31;
- const uint8_t DATAX0 = 0x32; //X-Axis Data 0
- const uint8_t DATAX1 = 0x33; //X-Axis Data 1
- const uint8_t DATAY0 = 0x34; //Y-Axis Data 0
- const uint8_t DATAY1 = 0x35; //Y-Axis Data 1
- const uint8_t DATAZ0 = 0x36; //Z-Axis Data 0
- const uint8_t DATAZ1 = 0x37; //Z-Axis Data 1
-
- void writeADXL345Register(const uint8_t registerAddress, const uint8_t value) {
- // Max SPI clock frequency is 5 MHz with CPOL = 1 and CPHA = 1.
- SPI.beginTransaction(SPISettings(5000000, MSBFIRST, SPI_MODE3));
- digitalWrite(ADXL345_CS, LOW);
- SPI.transfer(registerAddress);
- SPI.transfer(value);
- digitalWrite(ADXL345_CS, HIGH);
- SPI.endTransaction();
- }
-
- void userSetup() {
- SPI.begin();
- pinMode(ADXL345_CS, OUTPUT);
- digitalWrite(ADXL345_CS, HIGH);
- //Put the ADXL345 into +/- 4G range by writing the value 0x01 to the DATA_FORMAT register.
- writeADXL345Register(DATA_FORMAT, 0x01);
- //Put the ADXL345 into Measurement Mode by writing 0x08 to the POWER_CTL register.
- writeADXL345Register(POWER_CTL, 0x08); //Measurement mode
- }
-
- // Acquire a data record.
- void acquireData(data_t* data) {
- // Max SPI clock frequency is 5 MHz with CPOL = 1 and CPHA = 1.
- SPI.beginTransaction(SPISettings(5000000, MSBFIRST, SPI_MODE3));
- data->time = micros();
- digitalWrite(ADXL345_CS, LOW);
- // Read multiple bytes so or 0XC0 with address.
- SPI.transfer(DATAX0 | 0XC0);
- data->accel[0] = SPI.transfer(0) | (SPI.transfer(0) << 8);
- data->accel[1] = SPI.transfer(0) | (SPI.transfer(0) << 8);
- data->accel[2] = SPI.transfer(0) | (SPI.transfer(0) << 8);
- digitalWrite(ADXL345_CS, HIGH);
- SPI.endTransaction();
- }
-
- // Print a data record.
- void printData(Print* pr, data_t* data) {
- if (startMicros == 0) {
- startMicros = data->time;
- }
- pr->print(data->time - startMicros);
- for (int i = 0; i < ACCEL_DIM; i++) {
- pr->write(',');
- pr->print(data->accel[i]);
- }
- pr->println();
- }
-
- // Print data header.
- void printHeader(Print* pr) {
- startMicros = 0;
- pr->println(F("micros,ax,ay,az"));
- }
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