I'm using between 1-4 ADXL355 tri-axial accelerometers (https://www.analog.com/media/en/technical-documentation/data-sheets/adxl354_355.pdf) in conjunction with an Arduino MKR WIFI1010 in a test setup. Ideally I would like to sample close to 500 Hz with each whether that is testing with 1 sensor or with 4 using the TCA9548A I2C Multiplexer. Currently, I am collecting around 200 Hz with 1 sensor or 50 Hz with all 4 sensors (different code used for this setup). The default for the ADXL355 is 500 Hz, which makes it even more strange I cannot sample at that rate.

I have tried to increase my baud rate from 9600 to 128000. I have tried to use Wire.setClock() to maximize the I2C speed to the maximum of 3.4MHz which the sensors and the Arduino can operate at. I tried to save to a micro SD using a shield at one point too, though most of my testing has been with the Serial Monitor. I altered the Wire.write() which should be what is controlling the output rate, however even when I set it to the 4kHz setting (Wire.write(0x00)), I still am sampling at ~200Hz.

#include <Wire.h>
#define ADXL 0x1D                                       //Datasheet pages 4 and 7 have info that will be necessary for future development. 

void setup() {
  Wire.begin();                                         // initiate the accelerometer   
  Serial.begin(128000);                                   // initiate the serial monitor  
  Wire.beginTransmission(ADXL);                         //set STBY bit 0 to low / turn on MEASURE mode 
  Wire.beginTransmission(ADXL);                         //set RANGE to +/- 2g  pg. 37 of data sheet
  Wire.beginTransmission(ADXL);                         //set data rate to 4000HZ page 37 

I am expecting to get 500Hz (or 4000Hz how my code is right now) but am getting the 200Hz, and altering the set data rate does not seem to influence the results. Any help increasing my sample data rate would be appreciated! Thanks!


Concerning I2C baudrate you are using maximum allowed in the datasheet, but you have to set 8th bit of register 0x2c to 1. enter image description here

Concerning odr, the register and the value you are using are correct and in my setup (esp32-wrover + micropython) it works. If I were you I would try setting the odr to lowest possible value (3.906 Hz) and see if it works, for example reading all values in fifo and then checking how fast it refills, and then grow up with frequencies.

Consider that in my experience I wasn't able to reach more than 2kHz with I2C (I tried only on ADXL345 that actually has a lower max baudrate): for reaching 4kHz I would go with SPI and even with that the code must be very optimized.

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