1

I have an ADXL355 accelerometer attached to an Adafruit Feather Adalogger. I can configure and read the sensor. I can also write binary values to the SD card. The problem occurs when I try to read from the sensor and then write that data to the SD card. The only thing I can think of is I'm somehow messing up the SPI communication but I can't see where. I looked through pins_arduino.h for my board and the SD Card (pin 4) is on a different register than pin 10 so I don't see how I'm breaking things.

My operations proceed like this. Global sensor creation, Serial.begin, SD.begin, SPI.begin, Test sensor connection, Create file for output on SD card, Initialize sensor, Read sensor FIFO, Write to file, repeat last 2 forever.

The file is created but remains at 0 file size, ie nothing is actually written to the card.

The sensor can operate at 4 kHz which was hard to achieve using the digitalWrite functions so I switched to using the port registers on the Feather. I do it like this:

#include <SM_ADXL355_SPI_fast.h>
#include <SPI.h>
#include <SD.h>

#define cardSelect 4

ADXL355_SPIF adxl355(&DDRB, &PORTB, _BV(6)); // values taken from pins_arduino.h, tested and working on pin 10
void setup() {
  Serial.begin(57600);
  while(!Serial){
    // wait for Serial
  }
  SD.begin(cardSelect);
  SPI.begin();
  while(!adxl355.TestConnection()){
    delay(1000);  
  }
  adxl355.OpenFile("TestSPI.bin");
  adxl355.Initialize(1, 10, 0); // set range to 2g's, frequency to 4 Hz and filter to off
}

void loop() {
  while(true){ // avoid Arduino overhead of their loop function
    adxl355.ReadFIFO();
    adxl355.WriteFIFOToFile();
  }
}

Here is the ADXL constructor

ADXL355_SPIF::ADXL355_SPIF(volatile uint8_t * outReg, volatile uint8_t * outPort, uint8_t bitValue) : sensorOutReg(outReg), sensorPort(outPort), sensorBitValue(bitValue){
    *sensorOutReg |= sensorBitValue;
    *sensorPort |= sensorBitValue;
    sensorWriteCount = 0;
}

TestConnection tests that the DeviceID reads 0xAD. Initialize sets the G range, sample rate in Hz and filter. I have tested these with serial output and they work properly.

OpenFile looks like this:

bool ADXL355_SPIF::OpenFile(const String& fileName){
    sensorFile = SD.open(fileName, FILE_WRITE);
    if (!sensorFile){
        Serial.print("Could not create file: ");
        Serial.println(fileName);
        return false;
    }
    return true;
}

After running this a file does get created on the SD card called "TESTSPI.BIN" with 0 file size.

ReadFIFO reads the numbers of entries in FIFO, stored as fifoCount and then populates a buffer (sensorFIFO[32][3]) with the values from the FIFO. I've printed this buffer to Serial to show that it's working. Here is that function

void ADXL355_SPIF::ReadFIFO(){
    ReadRegister(ADXL355_RA_FIFO_ENTRIES, 1);
    fifoCount = buffer[0];
    ReadFIFOInternal();
    return;
}

void ADXL355_SPIF::ReadFIFOInternal(){
    SPI.beginTransaction(SPISettings(10000000, MSBFIRST, SPI_MODE0));
    *sensorPort &= ~sensorBitValue;
    uint8_t spiCommand = ADXL355_RA_FIFO_DATA << 1 | ADXL355_READ;
    SPI.transfer(spiCommand);
    int i = 0;
    unsigned long tempV;
    unsigned long value;
    while(i < fifoCount){
        for (int ptr = 0; ptr < 3; ++ptr){
            buffer[0] = SPI.transfer(0x0);
            value = buffer[0];
            value <<= 12;
            tempV = SPI.transfer(0x0);
            tempV <<= 4;
            value |= tempV;
            tempV = SPI.transfer(0x0);
            tempV >>=4;
            value |= tempV;
            if (buffer[0] & 0x80) {
                value |= 0xFFF00000;
            }
            long lValue = static_cast<long>(value);
            sensorFIFO[i][ptr] = scaleFactor * lValue;
        }
        i += 3;
    }
    SPI.endTransaction();
    *sensorPort |= sensorBitValue;
    return;
}

Here is WriteFIFOToFile:

void ADXL355_SPIF::WriteFIFOToFile(){
    if (fifoCount > 0){
        sensorFile.write(reinterpret_cast<const char *>(&sensorFIFO), 4 * fifoCount);
    }
    sensorWriteCount += fifoCount;
    if (sensorWriteCount >= 100){
        sensorFile.flush();
        sensorWriteCount = 0;
    }
}

After allowing this to run for a while the file size is always 0. I tried a simple binary write function just to test the card. It looks like this and it worked.

#include <SD.h>

#define cardSelectPin 4

const float pi=3.14159;

File oFile;

void setup() {
  // put your setup code here, to run once:
  Serial.begin(9600);
  while(!Serial){
    // wait for serial
  }
  SD.begin(cardSelectPin);
  oFile = SD.open("Test.bin", FILE_WRITE);
  Serial.println(sizeof(int));
  Serial.println(sizeof(float));
  float testFloat[32][3];
  for (int i = 0; i < 32; ++i){
    for (int j = 0; j < 3; ++j){
      testFloat[i][j] = pi * (i + 1) + j;
    }
  }
  oFile.write(reinterpret_cast<const char *>(&testFloat), sizeof(float) * 96);
  oFile.close();
  Serial.println("Finished writing file.");
}

void loop() {
  // put your main code here, to run repeatedly:

}
  • My problem is related to storing of data when i write the values on sd card the values are faulty however when i am not writing the values they are correct. – Maaz Rao Mar 26 '19 at 7:43
1

The problem was that flush was not being called correctly. I had created a buffer to hold data from the FIFO and it would flush the card when it would get full enough such that a subsequent read would overflow. At that time it would call flush. This is what was intended with the variable sensorWriteCount. This variable was of type uint8_t when it should have been a uint16_t.

Changing to the correct type fixed the problem. I would have deleted this question because it boils down to a typo, but once an answer has been posted the system doesn't allow that.

|improve this answer|||||
0

The only difference between the not-working sketch and the working one is the closing of the sd card. The sd card MUST be closed, I had the same problem you have and I assume that the file gets its boundaries written in its filesystem at file close call.
To solve your issue, use a push button. When you push it, it will close the file and stop reading/processing sensors. You can also use this button to start reading and recording sensors data on sd card again (toggle).

|improve this answer|||||
  • This is not true. If I remove the close statement the second sketch works exactly as before. flush writes the buffer to the card. Also the non-working sketch contains the File in the ADXL library which appears to be the problem. If I move the File to be global I get data out. This answer is just wrong. – Matt Oct 15 '17 at 17:22

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.