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amiro-os / components / accel / lis331dlh.cpp @ bc91a128

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#include <string.h>
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#include <amiro/util/util.h>
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#include <amiro/bus/spi/HWSPIDriver.hpp>
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#include <amiro/accel/lis331dlh.hpp>
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#include <chprintf.h>
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#include <cmath>  // abs()
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#include <amiro/Constants.h>
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namespace amiro {
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LIS331DLH::
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LIS331DLH(HWSPIDriver *driver) :
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  driver(driver),
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  currentFullScaleConfiguration(FS_2G) {
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}
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LIS331DLH::
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~LIS331DLH() {
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}
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chibios_rt::EvtSource*
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LIS331DLH::
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getEventSource() {
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  return &this->eventSource;
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}
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int16_t
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LIS331DLH::
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getAcceleration(const uint8_t axis) {
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  return this->accelerations[axis];
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}
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int16_t
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LIS331DLH::
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getAccelerationForce(const uint8_t axis) {
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  int16_t result;
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  switch(this->currentFullScaleConfiguration) {
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  default:
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  case(FS_2G):
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    // Should be this->accelerations[axis] * 0.9765625
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    result = this->accelerations[axis];
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    break;
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  case(FS_4G):
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      // Should be this->accelerations[axis] * 1.953125
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      result =  this->accelerations[axis] << 1;
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    break;
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  case(FS_8G):
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      // Should be this->accelerations[axis] * 3.90625
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      result =  this->accelerations[axis] << 2;
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    break;
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  }
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  return result;
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}
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msg_t
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LIS331DLH::
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main() {
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  this->setName("Lis331dlh");
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  while (!this->shouldTerminate()) {
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    updateSensorData();
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    this->eventSource.broadcastFlags(0);
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    this->waitAnyEventTimeout(ALL_EVENTS, CAN::UPDATE_PERIOD_MSEC);
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  }
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  return RDY_OK;
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}
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void
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LIS331DLH::
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updateSensorData() {
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  const size_t buffer_size = offsetof(LIS331DLH::registers, out_z)
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                             - offsetof(LIS331DLH::registers, status_reg)
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                             + MEMBER_SIZE(LIS331DLH::registers, out_z)
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                             + 1; /* addressing */
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  uint8_t buffer[buffer_size];
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  uint8_t sreg;
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  // this might be three-wire so we need to send ones
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  memset(buffer, 0xFFu, buffer_size);
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  buffer[0] = offsetof(LIS331DLH::registers, status_reg) | LIS331DLH::SPI_MULT | LIS331DLH::SPI_READ;
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  this->driver->exchange(buffer, buffer, buffer_size);
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  // assemble data
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  sreg = buffer[1];
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  if (sreg & LIS331DLH::XDA)
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    this->accelerations[LIS331DLH::AXIS_X] = int16_t((buffer[3] << 8) | buffer[2]) >> 4;
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  if (sreg & LIS331DLH::YDA)
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    this->accelerations[LIS331DLH::AXIS_Y] = int16_t((buffer[5] << 8) | buffer[4]) >> 4;
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  if (sreg & LIS331DLH::ZDA)
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    this->accelerations[LIS331DLH::AXIS_Z] = int16_t((buffer[7] << 8) | buffer[6]) >> 4;
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}
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msg_t
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LIS331DLH::
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configure(LIS331DLHConfig *config) {
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  const size_t ctrl_reg_size = offsetof(LIS331DLH::registers, ctrl_reg5)
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                               - offsetof(LIS331DLH::registers, ctrl_reg1)
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                               + MEMBER_SIZE(LIS331DLH::registers, ctrl_reg5)
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                               + 1; /* addressing */
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  const size_t int_reg_size = offsetof(LIS331DLH::registers, int1_duration)
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                              - offsetof(LIS331DLH::registers, int1_cfg)
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                              + MEMBER_SIZE(LIS331DLH::registers, int1_duration) /* linear interrupt config */
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                              + MEMBER_SIZE(LIS331DLH::registers, int1_src)
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                              + MEMBER_SIZE(LIS331DLH::registers, int1_src) /* 2x size of int1_src */
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                              + 1; /* addressing */
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  const size_t buffer_size = ctrl_reg_size > int_reg_size ? ctrl_reg_size : int_reg_size;
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  uint8_t buffer[buffer_size];
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  InterruptConfig *int_cfg = &config->int1_cfg;
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  uint8_t i;
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  // write interrupt config first
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  for (i = 0x00u; i < 2; i++, int_cfg++) {
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    // this might be three-wire so we need to send ones
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    memset(buffer, 0xFFu, buffer_size);
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    if (!i)
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      buffer[0] = offsetof(LIS331DLH::registers, int1_cfg);
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    else
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      buffer[0] = offsetof(LIS331DLH::registers, int2_cfg);
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    buffer[5] = buffer[0] + offsetof(LIS331DLH::registers, int1_src) - offsetof(LIS331DLH::registers, int1_cfg);
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    buffer[5] |= LIS331DLH::SPI_READ;
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    buffer[6] = 0xFFu,
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    buffer[0] |= LIS331DLH::SPI_MULT | LIS331DLH::SPI_WRITE;
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    buffer[1] = int_cfg->config;
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    buffer[2] = 0xFFu; /* skip source register */
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    buffer[3] = int_cfg->ths;
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    buffer[4] = int_cfg->duration;
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    this->driver->write(&buffer[0], 5);
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    // read intN_src register to clear IA
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    this->driver->exchange(&buffer[5], &buffer[5], 2);
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  }
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  // write control config
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  // this might be three-wire so we need to send ones
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  memset(buffer, 0xFFu, buffer_size);
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  buffer[0] = offsetof(LIS331DLH::registers, ctrl_reg1) | LIS331DLH::SPI_MULT | LIS331DLH::SPI_WRITE;
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  buffer[1] = config->ctrl1;
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  buffer[2] = config->ctrl2;
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  buffer[3] = config->ctrl3;
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  buffer[4] = config->ctrl4;
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  buffer[5] = config->ctrl5;
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  this->driver->write(buffer, 6);
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  // reset hp filter
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  buffer[0] = offsetof(LIS331DLH::registers, hp_filter_reset) | LIS331DLH::SPI_WRITE;
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  this->driver->write(buffer, 1);
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  // Store the full scale configuration for acceleration decoding
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  this->currentFullScaleConfiguration = config->ctrl4 & LIS331DLH::FS_8G;
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  return RDY_OK;
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}
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uint8_t
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LIS331DLH::
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getCheck() {
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  const size_t buffer_size = 1 /* addressing */
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                             + 1; /* who am i */
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  uint8_t buffer[buffer_size];
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  // Exchange the data with the LIS331DLH accelerometer
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  // Specify the adress and the mode
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  buffer[0] = offsetof(LIS331DLH::registers, who_am_i) | LIS331DLH::SPI_READ;
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  this->driver->exchange(buffer, buffer, buffer_size);
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  // Check
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  if (buffer[1] == LIS331DLH::LIS331DLH_ID) {
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    return LIS331DLH::CHECK_OK;
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  } else {
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    return LIS331DLH::CHECK_FAIL;
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  }
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}
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void
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LIS331DLH::
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printSelfTest(LIS331DLHConfig* config) {
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  // Running the build in test from LIS331DLH manual and compare the
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  // measured values against table 3
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  const uint8_t amountOfMeanValues = 10;
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  const uint32_t sleepBetweenMeasurementMs = 500;
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  int32_t accel;
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  // Choose a defined config, if none is given
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  LIS331DLH::LIS331DLHConfig test_accel_run_cfg;
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  if (config == NULL) {
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    LIS331DLH::LIS331DLHConfig accel_run_cfg_tmp = {
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    /* ctrl1    */LIS331DLH::PM_ODR | LIS331DLH::DR_50HZ_37LP | LIS331DLH::ZEN
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        | LIS331DLH::YEN | LIS331DLH::XEN,
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    /* ctrl2    */0x00u,
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    /* ctrl3    */LIS331DLH::INT_LOW | LIS331DLH::I1_CFG_DRY,
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    /* ctrl4    */LIS331DLH::BDU_CONT | LIS331DLH::BLE_LE | LIS331DLH::FS_8G
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        | LIS331DLH::SIM_4WI,
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    /* ctrl5    */LIS331DLH::SLEEP_TO_WAKE_OFF,
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    /* int1_cfg */
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    {
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    /* config   */LIS331DLH::AOI_OR_INT,
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    /* ths      */0x00u,
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    /* duration */0x00u, },
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    /* int2_cfg */
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    {
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    /* config   */LIS331DLH::AOI_OR_INT,
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    /* ths      */0x00u,
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    /* duration */0x00u, }, };
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    test_accel_run_cfg = accel_run_cfg_tmp;
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  } else {
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    // Save the given config
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    test_accel_run_cfg = *config;
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  }
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  // 1. Get some standard values
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  // Configure for the test
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  test_accel_run_cfg.ctrl4 = LIS331DLH::BDU_CONT | LIS331DLH::BLE_LE
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      | LIS331DLH::FS_2G | LIS331DLH::SIM_4WI;
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  this->configure(&test_accel_run_cfg);
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  BaseThread::sleep(MS2ST(sleepBetweenMeasurementMs));
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  // Grep some values and build the mean value
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  chprintf((BaseSequentialStream*) &SD1, "\nACC: Get acc std values\n");
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  int32_t stdAccValues[3] = { this->getAcceleration(LIS331DLH::AXIS_X), this
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      ->getAcceleration(LIS331DLH::AXIS_Y), this->getAcceleration(
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      LIS331DLH::AXIS_Z) };
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  for (uint8_t n = 1; n < amountOfMeanValues; ++n) {
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    BaseThread::sleep(MS2ST(sleepBetweenMeasurementMs));
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    for (uint8_t i = LIS331DLH::AXIS_X; i <= LIS331DLH::AXIS_Z; i++) {
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      accel = int32_t(this->getAcceleration(i));
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      stdAccValues[i] = (stdAccValues[i] * n + accel) / (n + 1);
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      chprintf((BaseSequentialStream*) &SD1, "%c%d:%d ", accel < 0 ? '-' : '+',
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                accel < 0 ? -accel : accel, stdAccValues[i]);
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    }
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    chprintf((BaseSequentialStream*) &SD1, "\n");
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  }
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  // 2. Apply negative offset
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  // Configure for the test
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  test_accel_run_cfg.ctrl4 = LIS331DLH::BDU_CONT | LIS331DLH::BLE_LE
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      | LIS331DLH::FS_2G | LIS331DLH::SIM_4WI | LIS331DLH::ST_ENABLE
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      | LIS331DLH::STSIGN_NEG;
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  this->configure(&test_accel_run_cfg);
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  BaseThread::sleep(MS2ST(sleepBetweenMeasurementMs));
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  // Grep some values and build the mean value
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  chprintf((BaseSequentialStream*) &SD1, "\nACC: Get acc neg values\n");
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  int16_t negAccValues[3] = { this->getAcceleration(LIS331DLH::AXIS_X), this
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      ->getAcceleration(LIS331DLH::AXIS_Y), this->getAcceleration(
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      LIS331DLH::AXIS_Z) };
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  for (uint8_t n = 1; n < amountOfMeanValues; ++n) {
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    BaseThread::sleep(MS2ST(sleepBetweenMeasurementMs));
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    for (uint8_t i = LIS331DLH::AXIS_X; i <= LIS331DLH::AXIS_Z; i++) {
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      accel = int32_t(this->getAcceleration(i));
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      negAccValues[i] = (negAccValues[i] * n + accel) / (n + 1);
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      chprintf((BaseSequentialStream*) &SD1, "%c%d:%d ", accel < 0 ? '-' : '+',
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                accel < 0 ? -accel : accel, negAccValues[i]);
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    }
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    chprintf((BaseSequentialStream*) &SD1, "\n");
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  }
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  // 2. Apply positive offset
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  // Configure for the test
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  test_accel_run_cfg.ctrl4 = LIS331DLH::BDU_CONT | LIS331DLH::BLE_LE
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      | LIS331DLH::FS_2G | LIS331DLH::SIM_4WI | LIS331DLH::ST_ENABLE
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      | LIS331DLH::STSIGN_POS;
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  this->configure(&test_accel_run_cfg);
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  BaseThread::sleep(MS2ST(sleepBetweenMeasurementMs));
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  // Grep some values and build the mean value
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  chprintf((BaseSequentialStream*) &SD1, "\nACC: Get acc pos values\n");
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  int16_t posAccValues[3] = { this->getAcceleration(LIS331DLH::AXIS_X), this
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      ->getAcceleration(LIS331DLH::AXIS_Y), this->getAcceleration(
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      LIS331DLH::AXIS_Z) };
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  for (uint8_t n = 1; n < amountOfMeanValues; ++n) {
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    BaseThread::sleep(MS2ST(sleepBetweenMeasurementMs));
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    for (uint8_t i = LIS331DLH::AXIS_X; i <= LIS331DLH::AXIS_Z; i++) {
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      accel = int32_t(this->getAcceleration(i));
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      posAccValues[i] = (posAccValues[i] * n + accel) / (n + 1);
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      chprintf((BaseSequentialStream*) &SD1, "%c%d:%d ", accel < 0 ? '-' : '+',
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                accel < 0 ? -accel : accel, posAccValues[i]);
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    }
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    chprintf((BaseSequentialStream*) &SD1, "\n");
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  }
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  // Get the amplitude change and compare it to the standard values from LIS331DLH manual table 3
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  int32_t amp;
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  const int32_t ampXmax = 550, ampYmax = 550, ampZmax = 750;
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  const int32_t ampXmin = 120, ampYmin = 120, ampZmin = 140;
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  // TEST
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  chprintf((BaseSequentialStream*) &SD1, "\n\nACC: Testresult\n");
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  amp = std::abs(
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      stdAccValues[LIS331DLH::AXIS_X] - negAccValues[LIS331DLH::AXIS_X]);
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  if (amp < ampXmin || amp > ampXmax)
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    chprintf((BaseSequentialStream*) &SD1, "ACC: Negative x-axis faulty\n");
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  amp = std::abs(
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      stdAccValues[LIS331DLH::AXIS_Y] - negAccValues[LIS331DLH::AXIS_Y]);
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  if (amp < ampYmin || amp > ampYmax)
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    chprintf((BaseSequentialStream*) &SD1, "ACC: Negative y-axis faulty\n");
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  amp = std::abs(
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      stdAccValues[LIS331DLH::AXIS_Z] - negAccValues[LIS331DLH::AXIS_Z]);
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  if (amp < ampZmin || amp > ampZmax)
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    chprintf((BaseSequentialStream*) &SD1, "ACC: Negative z-axis faulty\n");
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  amp = std::abs(
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      stdAccValues[LIS331DLH::AXIS_X] - posAccValues[LIS331DLH::AXIS_X]);
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  if (amp < ampXmin || amp > ampXmax)
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    chprintf((BaseSequentialStream*) &SD1, "ACC: Positive x-axis faulty\n");
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  amp = std::abs(
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      stdAccValues[LIS331DLH::AXIS_Y] - posAccValues[LIS331DLH::AXIS_Y]);
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  if (amp < ampYmin || amp > ampYmax)
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    chprintf((BaseSequentialStream*) &SD1, "ACC: Positive y-axis faulty\n");
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  amp = std::abs(
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      stdAccValues[LIS331DLH::AXIS_Z] - posAccValues[LIS331DLH::AXIS_Z]);
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  if (amp < ampZmin || amp > ampZmax)
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    chprintf((BaseSequentialStream*) &SD1, "ACC: Positive z-axis faulty\n");
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  // Write back the original config
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  this->configure(config);
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}
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} /* amiro */