/* * Copyright (C) 2017 Mesotic SAS * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @ingroup drivers_adxl345 * @{ * * @file * @brief Device driver implementation for the ADXL345 accelerometer (i2c only) * * @author Dylan Laduranty * * @} */ #include #include #include #include "assert.h" #include "periph/i2c.h" #include "adxl345.h" #include "adxl345_regs.h" #define ENABLE_DEBUG (0) #include "debug.h" #define I2C_SPEED I2C_SPEED_NORMAL #define BUS (dev->i2c) #define ADDR (dev->addr) int adxl345_init(adxl345_t *dev, const adxl345_params_t* params) { uint8_t reg; assert(dev && params); /* get device descriptor */ dev->params = (adxl345_params_t*)params; /* get scale_factor from full_res and range parameters */ dev->scale_factor = (dev->params->full_res ? 3.9 : (dev->params->range * 3.9)); /* Acquire exclusive access */ i2c_acquire(BUS); /* Initialize I2C interface */ if (i2c_init_master(BUS, I2C_SPEED) < 0) { i2c_release(BUS); DEBUG("[adxl345] init - error: unable to initialize I2C bus\n"); return ADXL345_NOI2C; } /* test if the target device responds */ i2c_read_reg(BUS, ADDR, ACCEL_ADXL345_CHIP_ID_REG, ®); if (reg != ACCEL_ADXL345_CHIP_ID) { i2c_release(BUS); DEBUG("[adxl345] init - error: invalid id value [0x%02x]\n", (int)reg); return ADXL345_NODEV; } /* configure the user offset */ i2c_write_regs(BUS, ADDR, ACCEL_ADXL345_OFFSET_X, dev->params->offset, 3); /* Basic device setup */ reg = (dev->params->full_res | dev->params->range); i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_DATA_FORMAT, reg); i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_BW_RATE, dev->params->rate); /* Put device in measure mode */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, MEASURE_BIT); /* Release the bus */ i2c_release(BUS); DEBUG("[adxl345] init: successful\n"); return ADXL345_OK; } void adxl345_read(const adxl345_t *dev, adxl345_data_t *data) { int8_t result[6]; assert(dev && data); i2c_acquire(BUS); i2c_read_regs(BUS, ADDR, ACCEL_ADXL345_DATA_X0, result, 6); i2c_release(BUS); data->x = (((result[1] << 8)+result[0]) * dev->scale_factor); data->y = (((result[3] << 8)+result[2]) * dev->scale_factor); data->z = (((result[5] << 8)+result[4]) * dev->scale_factor); } void adxl345_set_interrupt(const adxl345_t *dev) { assert(dev); DEBUG("[adxl345] Update interruptions configuration\n"); i2c_acquire(BUS); /* Set threshold */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_THRESH_TAP, dev->interrupt.thres_tap); /* Set Map */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_INT_MAP, dev->interrupt.map); /* Set Duration */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_TAP_DUR, dev->interrupt.thres_dur); /* Enable axes */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_TAP_AXES, dev->interrupt.tap_axes); /* Set source */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_INT_SOURCE, dev->interrupt.source); /* Set latent threshold */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_TAP_LAT, dev->interrupt.thres_latent); /* Set window threshold */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_TAP_WIN, dev->interrupt.thres_window); /* Set activity threshold */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_THRESH_ACT, dev->interrupt.thres_act); /* Set inactivity threshold */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_THRESH_INACT, dev->interrupt.thres_inact); /* Set inactivity time */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_TIME_INACT, dev->interrupt.time_inact); /* Set free-fall threshold */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_THRESH_FF, dev->interrupt.thres_ff); /* Set free-fall time */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_TIME_FF, dev->interrupt.time_ff); /* Set axis control */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_ACT_INACT_CTL, dev->interrupt.act_inact); /* Enable interrupt */ i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_INT_ENABLE, dev->interrupt.enable); /* Release the bus */ i2c_release(BUS); } void adxl345_set_measure(const adxl345_t *dev) { uint8_t reg; assert(dev); DEBUG("[adxl345] set device to measure mode\n"); i2c_acquire(BUS); i2c_read_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, ®); reg |= MEASURE_BIT; i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, reg); i2c_release(BUS); } void adxl345_set_standby(const adxl345_t *dev) { uint8_t reg; assert(dev); DEBUG("[adxl345] set device to standby mode\n"); i2c_acquire(BUS); i2c_read_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, ®); reg &= ~MEASURE_BIT; i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, reg); i2c_release(BUS); } void adxl345_set_sleep(const adxl345_t *dev) { uint8_t reg; assert(dev); DEBUG("[adxl345] set device to sleep mode\n"); i2c_acquire(BUS); i2c_read_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, ®); reg |= SLEEP_BIT; i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, reg); i2c_release(BUS); } void adxl345_set_autosleep(const adxl345_t *dev) { uint8_t reg; assert(dev); DEBUG("[adxl345] set device to autosleep mode\n"); i2c_acquire(BUS); i2c_read_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, ®); reg |= AUTOSLEEP_BIT; i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_POWER_CTL, reg); i2c_release(BUS); } void adxl345_set_bandwidth_rate(const adxl345_t *dev, uint8_t bw_rate) { uint8_t reg; assert(dev); DEBUG("[adxl345] set device rate to %d Hz\n", (int)bw_rate); i2c_acquire(BUS); i2c_read_reg(BUS, ADDR, ACCEL_ADXL345_BW_RATE, ®); reg |= bw_rate; i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_BW_RATE, reg); i2c_release(BUS); } void adxl345_set_fifo_mode(const adxl345_t *dev, uint8_t mode, uint8_t output, uint8_t value) { uint8_t reg; assert(dev); DEBUG("[adxl345] set fifo mode to %d, output trigger to %d and trigger " "value to :%d\n", (int)mode, (int)output, (int)value); i2c_acquire(BUS); reg = ((mode << FIFO_MODE_POS) | (output << FIFO_TRIGGER_POS) | value); i2c_write_reg(BUS, ADDR, ACCEL_ADXL345_FIFO_CTL, reg); i2c_release(BUS); }