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1669 lines
61 KiB
C++
1669 lines
61 KiB
C++
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// I2Cdev library collection - ADXL345 I2C device class
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// Based on Analog Devices ADXL345 datasheet rev. C, 5/2011
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// 7/31/2011 by Jeff Rowberg <jeff@rowberg.net>
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// Updates should (hopefully) always be available at https://github.com/jrowberg/i2cdevlib
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//
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// Changelog:
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// 2011-07-31 - initial release
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/* ============================================
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I2Cdev device library code is placed under the MIT license
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Copyright (c) 2011 Jeff Rowberg
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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===============================================
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*/
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#include "ADXL345.h"
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/** Default constructor, uses default I2C address.
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* @see ADXL345_DEFAULT_ADDRESS
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*/
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ADXL345::ADXL345() {
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devAddr = ADXL345_DEFAULT_ADDRESS;
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}
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/** Specific address constructor.
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* @param address I2C address
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* @see ADXL345_DEFAULT_ADDRESS
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* @see ADXL345_ADDRESS_ALT_LOW
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* @see ADXL345_ADDRESS_ALT_HIGH
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*/
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ADXL345::ADXL345(uint8_t address) {
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devAddr = address;
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}
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/** Power on and prepare for general usage.
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* This will activate the accelerometer, so be sure to adjust the power settings
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* after you call this method if you want it to enter standby mode, or another
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* less demanding mode of operation.
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*/
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void ADXL345::initialize() {
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I2Cdev::writeByte(devAddr, ADXL345_RA_POWER_CTL, 0); // reset all power settings
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setAutoSleepEnabled(true);
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setMeasureEnabled(true);
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}
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/** Verify the I2C connection.
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* Make sure the device is connected and responds as expected.
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* @return True if connection is valid, false otherwise
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*/
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bool ADXL345::testConnection() {
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return getDeviceID() == 0xE5;
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}
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// DEVID register
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/** Get Device ID.
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* The DEVID register holds a fixed device ID code of 0xE5 (345 octal).
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* @return Device ID (should be 0xE5, 229 dec, 345 oct)
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* @see ADXL345_RA_DEVID
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*/
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uint8_t ADXL345::getDeviceID() {
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I2Cdev::readByte(devAddr, ADXL345_RA_DEVID, buffer);
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return buffer[0];
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}
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// THRESH_TAP register
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/** Get tap threshold.
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* The THRESH_TAP register is eight bits and holds the threshold value for tap
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* interrupts. The data format is unsigned, therefore, the magnitude of the tap
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* event is compared with the value in THRESH_TAP for normal tap detection. The
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* scale factor is 62.5 mg/LSB (that is, 0xFF = 16 g). A value of 0 may result
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* in undesirable behavior if single tap/double tap interrupts are enabled.
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* @return Tap threshold (scaled at 62.5 mg/LSB)
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* @see ADXL345_RA_THRESH_TAP
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*/
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uint8_t ADXL345::getTapThreshold() {
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I2Cdev::readByte(devAddr, ADXL345_RA_THRESH_TAP, buffer);
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return buffer[0];
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}
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/** Set tap threshold.
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* @param threshold Tap magnitude threshold (scaled at 62.5 mg/LSB)
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* @see ADXL345_RA_THRESH_TAP
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* @see getTapThreshold()
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*/
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void ADXL345::setTapThreshold(uint8_t threshold) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_THRESH_TAP, threshold);
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}
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// OFS* registers
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/** Get axis offsets.
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* The OFSX, OFSY, and OFSZ registers are each eight bits and offer user-set
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* offset adjustments in twos complement format with a scale factor of 15.6
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* mg/LSB (that is, 0x7F = 2 g). The value stored in the offset registers is
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* automatically added to the acceleration data, and the resulting value is
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* stored in the output data registers. For additional information regarding
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* offset calibration and the use of the offset registers, refer to the Offset
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* Calibration section of the datasheet.
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* @param x X axis offset container
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* @param y Y axis offset container
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* @param z Z axis offset container
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* @see ADXL345_RA_OFSX
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* @see ADXL345_RA_OFSY
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* @see ADXL345_RA_OFSZ
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*/
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void ADXL345::getOffset(int8_t* x, int8_t* y, int8_t* z) {
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I2Cdev::readBytes(devAddr, ADXL345_RA_OFSX, 3, buffer);
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*x = buffer[0];
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*y = buffer[1];
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*z = buffer[2];
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}
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/** Set axis offsets.
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* @param x X axis offset value
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* @param y Y axis offset value
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* @param z Z axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSX
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* @see ADXL345_RA_OFSY
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* @see ADXL345_RA_OFSZ
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*/
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void ADXL345::setOffset(int8_t x, int8_t y, int8_t z) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_OFSX, x);
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I2Cdev::writeByte(devAddr, ADXL345_RA_OFSY, y);
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I2Cdev::writeByte(devAddr, ADXL345_RA_OFSZ, z);
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}
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/** Get X axis offset.
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* @return X axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSX
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*/
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int8_t ADXL345::getOffsetX() {
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I2Cdev::readByte(devAddr, ADXL345_RA_OFSX, buffer);
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return buffer[0];
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}
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/** Set X axis offset.
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* @param x X axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSX
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*/
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void ADXL345::setOffsetX(int8_t x) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_OFSX, x);
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}
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/** Get Y axis offset.
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* @return Y axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSY
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*/
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int8_t ADXL345::getOffsetY() {
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I2Cdev::readByte(devAddr, ADXL345_RA_OFSY, buffer);
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return buffer[0];
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}
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/** Set Y axis offset.
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* @param y Y axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSY
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*/
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void ADXL345::setOffsetY(int8_t y) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_OFSY, y);
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}
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/** Get Z axis offset.
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* @return Z axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSZ
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*/
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int8_t ADXL345::getOffsetZ() {
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I2Cdev::readByte(devAddr, ADXL345_RA_OFSZ, buffer);
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return buffer[0];
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}
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/** Set Z axis offset.
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* @param z Z axis offset value
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* @see getOffset()
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* @see ADXL345_RA_OFSZ
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*/
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void ADXL345::setOffsetZ(int8_t z) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_OFSZ, z);
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}
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// DUR register
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/** Get tap duration.
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* The DUR register is eight bits and contains an unsigned time value
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* representing the maximum time that an event must be above the THRESH_TAP
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* threshold to qualify as a tap event. The scale factor is 625 us/LSB. A value
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* of 0 disables the single tap/ double tap functions.
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* @return Tap duration (scaled at 625 us/LSB)
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* @see ADXL345_RA_DUR
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*/
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uint8_t ADXL345::getTapDuration() {
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I2Cdev::readByte(devAddr, ADXL345_RA_DUR, buffer);
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return buffer[0];
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}
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/** Set tap duration.
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* @param duration Tap duration (scaled at 625 us/LSB)
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* @see getTapDuration()
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* @see ADXL345_RA_DUR
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*/
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void ADXL345::setTapDuration(uint8_t duration) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_DUR, duration);
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}
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// LATENT register
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/** Get tap duration.
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* The latent register is eight bits and contains an unsigned time value
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* representing the wait time from the detection of a tap event to the start of
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* the time window (defined by the window register) during which a possible
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* second tap event can be detected. The scale factor is 1.25 ms/LSB. A value of
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* 0 disables the double tap function.
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* @return Tap latency (scaled at 1.25 ms/LSB)
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* @see ADXL345_RA_LATENT
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*/
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uint8_t ADXL345::getDoubleTapLatency() {
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I2Cdev::readByte(devAddr, ADXL345_RA_LATENT, buffer);
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return buffer[0];
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}
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/** Set tap duration.
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* @param latency Tap latency (scaled at 1.25 ms/LSB)
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* @see getDoubleTapLatency()
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* @see ADXL345_RA_LATENT
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*/
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void ADXL345::setDoubleTapLatency(uint8_t latency) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_LATENT, latency);
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}
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// WINDOW register
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/** Get double tap window.
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* The window register is eight bits and contains an unsigned time value
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* representing the amount of time after the expiration of the latency time
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* (determined by the latent register) during which a second valid tap can
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* begin. The scale factor is 1.25 ms/LSB. A value of 0 disables the double tap
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* function.
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* @return Double tap window (scaled at 1.25 ms/LSB)
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* @see ADXL345_RA_WINDOW
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*/
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uint8_t ADXL345::getDoubleTapWindow() {
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I2Cdev::readByte(devAddr, ADXL345_RA_WINDOW, buffer);
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return buffer[0];
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}
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/** Set double tap window.
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* @param window Double tap window (scaled at 1.25 ms/LSB)
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* @see getDoubleTapWindow()
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* @see ADXL345_RA_WINDOW
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*/
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void ADXL345::setDoubleTapWindow(uint8_t window) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_WINDOW, window);
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}
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// THRESH_ACT register
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/** Get activity threshold.
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* The THRESH_ACT register is eight bits and holds the threshold value for
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* detecting activity. The data format is unsigned, so the magnitude of the
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* activity event is compared with the value in the THRESH_ACT register. The
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* scale factor is 62.5 mg/LSB. A value of 0 may result in undesirable behavior
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* if the activity interrupt is enabled.
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* @return Activity threshold (scaled at 62.5 mg/LSB)
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* @see ADXL345_RA_THRESH_ACT
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*/
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uint8_t ADXL345::getActivityThreshold() {
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I2Cdev::readByte(devAddr, ADXL345_RA_THRESH_ACT, buffer);
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return buffer[0];
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}
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/** Set activity threshold.
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* @param threshold Activity threshold (scaled at 62.5 mg/LSB)
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* @see getActivityThreshold()
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* @see ADXL345_RA_THRESH_ACT
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*/
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void ADXL345::setActivityThreshold(uint8_t threshold) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_THRESH_ACT, threshold);
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}
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// THRESH_INACT register
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/** Get inactivity threshold.
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* The THRESH_INACT register is eight bits and holds the threshold value for
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* detecting inactivity. The data format is unsigned, so the magnitude of the
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* inactivity event is compared with the value in the THRESH_INACT register. The
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* scale factor is 62.5 mg/LSB. A value of 0 may result in undesirable behavior
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* if the inactivity interrupt is enabled.
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* @return Inactivity threshold (scaled at 62.5 mg/LSB)
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* @see ADXL345_RA_THRESH_INACT
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*/
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uint8_t ADXL345::getInactivityThreshold() {
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I2Cdev::readByte(devAddr, ADXL345_RA_THRESH_INACT, buffer);
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return buffer[0];
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}
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/** Set inactivity threshold.
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* @param threshold Inctivity threshold (scaled at 62.5 mg/LSB)
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* @see getInctivityThreshold()
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* @see ADXL345_RA_THRESH_INACT
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*/
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void ADXL345::setInactivityThreshold(uint8_t threshold) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_THRESH_INACT, threshold);
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}
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// TIME_INACT register
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/** Set inactivity time.
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* The TIME_INACT register is eight bits and contains an unsigned time value
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* representing the amount of time that acceleration must be less than the value
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* in the THRESH_INACT register for inactivity to be declared. The scale factor
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* is 1 sec/LSB. Unlike the other interrupt functions, which use unfiltered data
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* (see the Threshold sectionof the datasheet), the inactivity function uses
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* filtered output data. At least one output sample must be generated for the
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* inactivity interrupt to be triggered. This results in the function appearing
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* unresponsive if the TIME_INACT register is set to a value less than the time
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* constant of the output data rate. A value of 0 results in an interrupt when
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* the output data is less than the value in the THRESH_INACT register.
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* @return Inactivity time (scaled at 1 sec/LSB)
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* @see ADXL345_RA_TIME_INACT
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*/
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uint8_t ADXL345::getInactivityTime() {
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I2Cdev::readByte(devAddr, ADXL345_RA_TIME_INACT, buffer);
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return buffer[0];
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}
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/** Set inactivity time.
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* @param time Inactivity time (scaled at 1 sec/LSB)
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* @see getInctivityTime()
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* @see ADXL345_RA_TIME_INACT
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*/
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void ADXL345::setInactivityTime(uint8_t time) {
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I2Cdev::writeByte(devAddr, ADXL345_RA_TIME_INACT, time);
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}
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// ACT_INACT_CTL register
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/** Get activity AC/DC coupling.
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* A setting of 0 selects dc-coupled operation, and a setting of 1 enables
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* ac-coupled operation. In dc-coupled operation, the current acceleration
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* magnitude is compared directly with THRESH_ACT and THRESH_INACT to determine
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* whether activity or inactivity is detected.
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*
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* In ac-coupled operation for activity detection, the acceleration value at the
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* start of activity detection is taken as a reference value. New samples of
|
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* acceleration are then compared to this reference value, and if the magnitude
|
|||
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* of the difference exceeds the THRESH_ACT value, the device triggers an
|
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* activity interrupt.
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|||
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*
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* Similarly, in ac-coupled operation for inactivity detection, a reference
|
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* value is used for comparison and is updated whenever the device exceeds the
|
|||
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* inactivity threshold. After the reference value is selected, the device
|
|||
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* compares the magnitude of the difference between the reference value and the
|
|||
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* current acceleration with THRESH_INACT. If the difference is less than the
|
|||
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* value in THRESH_INACT for the time in TIME_INACT, the device is considered
|
|||
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* inactive and the inactivity interrupt is triggered.
|
|||
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*
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* @return Activity coupling (0 = DC, 1 = AC)
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* @see ADXL345_RA_ACT_INACT_CTL
|
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* @see ADXL345_AIC_ACT_AC_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivityAC() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_AC_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set activity AC/DC coupling.
|
|||
|
* @param enabled Activity AC/DC coupling (TRUE for AC, FALSE for DC)
|
|||
|
* @see getActivityAC()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_AC_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setActivityAC(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_AC_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get X axis activity monitoring inclusion.
|
|||
|
* For all "get[In]Activity*Enabled()" methods: a setting of 1 enables x-, y-,
|
|||
|
* or z-axis participation in detecting activity or inactivity. A setting of 0
|
|||
|
* excludes the selected axis from participation. If all axes are excluded, the
|
|||
|
* function is disabled. For activity detection, all participating axes are
|
|||
|
* logically OR<EFBFBD>ed, causing the activity function to trigger when any of the
|
|||
|
* participating axes exceeds the threshold. For inactivity detection, all
|
|||
|
* participating axes are logically AND<EFBFBD>ed, causing the inactivity function to
|
|||
|
* trigger only if all participating axes are below the threshold for the
|
|||
|
* specified time.
|
|||
|
* @return X axis activity monitoring enabled value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_X_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivityXEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_X_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set X axis activity monitoring inclusion.
|
|||
|
* @param enabled X axis activity monitoring inclusion value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_X_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setActivityXEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_X_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get Y axis activity monitoring.
|
|||
|
* @return Y axis activity monitoring enabled value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_Y_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivityYEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_Y_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set Y axis activity monitoring inclusion.
|
|||
|
* @param enabled Y axis activity monitoring inclusion value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_Y_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setActivityYEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_Y_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get Z axis activity monitoring.
|
|||
|
* @return Z axis activity monitoring enabled value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_Z_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivityZEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_Z_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set Z axis activity monitoring inclusion.
|
|||
|
* @param enabled Z axis activity monitoring inclusion value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_ACT_Z_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setActivityZEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_ACT_Z_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get inactivity AC/DC coupling.
|
|||
|
* @return Inctivity coupling (0 = DC, 1 = AC)
|
|||
|
* @see getActivityAC()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_AC_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getInactivityAC() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_AC_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set inctivity AC/DC coupling.
|
|||
|
* @param enabled Inactivity AC/DC coupling (TRUE for AC, FALSE for DC)
|
|||
|
* @see getActivityAC()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_AC_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setInactivityAC(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_AC_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get X axis inactivity monitoring.
|
|||
|
* @return Y axis inactivity monitoring enabled value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_X_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getInactivityXEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_X_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set X axis activity monitoring inclusion.
|
|||
|
* @param enabled X axis inactivity monitoring inclusion value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_X_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setInactivityXEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_X_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get Y axis inactivity monitoring.
|
|||
|
* @return Y axis inactivity monitoring enabled value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_Y_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getInactivityYEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_Y_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set Y axis inactivity monitoring inclusion.
|
|||
|
* @param enabled Y axis inactivity monitoring inclusion value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_Y_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setInactivityYEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_Y_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get Z axis inactivity monitoring.
|
|||
|
* @return Z axis inactivity monitoring enabled value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_Z_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getInactivityZEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_Z_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set Z axis inactivity monitoring inclusion.
|
|||
|
* @param enabled Z axis activity monitoring inclusion value
|
|||
|
* @see getActivityAC()
|
|||
|
* @see getActivityXEnabled()
|
|||
|
* @see ADXL345_RA_ACT_INACT_CTL
|
|||
|
* @see ADXL345_AIC_INACT_Z_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setInactivityZEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_ACT_INACT_CTL, ADXL345_AIC_INACT_Z_BIT, enabled);
|
|||
|
}
|
|||
|
|
|||
|
// THRESH_FF register
|
|||
|
|
|||
|
/** Get freefall threshold value.
|
|||
|
* The THRESH_FF register is eight bits and holds the threshold value, in
|
|||
|
* unsigned format, for free-fall detection. The acceleration on all axes is
|
|||
|
* compared with the value in THRESH_FF to determine if a free-fall event
|
|||
|
* occurred. The scale factor is 62.5 mg/LSB. Note that a value of 0 mg may
|
|||
|
* result in undesirable behavior if the free-fall interrupt is enabled. Values
|
|||
|
* between 300 mg and 600 mg (0x05 to 0x09) are recommended.
|
|||
|
* @return Freefall threshold value (scaled at 62.5 mg/LSB)
|
|||
|
* @see ADXL345_RA_THRESH_FF
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFreefallThreshold() {
|
|||
|
I2Cdev::readByte(devAddr, ADXL345_RA_THRESH_FF, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set freefall threshold value.
|
|||
|
* @param threshold Freefall threshold value (scaled at 62.5 mg/LSB)
|
|||
|
* @see getFreefallThreshold()
|
|||
|
* @see ADXL345_RA_THRESH_FF
|
|||
|
*/
|
|||
|
void ADXL345::setFreefallThreshold(uint8_t threshold) {
|
|||
|
I2Cdev::writeByte(devAddr, ADXL345_RA_THRESH_FF, threshold);
|
|||
|
}
|
|||
|
|
|||
|
// TIME_FF register
|
|||
|
|
|||
|
/** Get freefall time value.
|
|||
|
* The TIME_FF register is eight bits and stores an unsigned time value
|
|||
|
* representing the minimum time that the value of all axes must be less than
|
|||
|
* THRESH_FF to generate a free-fall interrupt. The scale factor is 5 ms/LSB. A
|
|||
|
* value of 0 may result in undesirable behavior if the free-fall interrupt is
|
|||
|
* enabled. Values between 100 ms and 350 ms (0x14 to 0x46) are recommended.
|
|||
|
* @return Freefall time value (scaled at 5 ms/LSB)
|
|||
|
* @see getFreefallThreshold()
|
|||
|
* @see ADXL345_RA_TIME_FF
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFreefallTime() {
|
|||
|
I2Cdev::readByte(devAddr, ADXL345_RA_TIME_FF, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set freefall time value.
|
|||
|
* @param threshold Freefall time value (scaled at 5 ms/LSB)
|
|||
|
* @see getFreefallTime()
|
|||
|
* @see ADXL345_RA_TIME_FF
|
|||
|
*/
|
|||
|
void ADXL345::setFreefallTime(uint8_t time) {
|
|||
|
I2Cdev::writeByte(devAddr, ADXL345_RA_TIME_FF, time);
|
|||
|
}
|
|||
|
|
|||
|
// TAP_AXES register
|
|||
|
|
|||
|
/** Get double-tap fast-movement suppression.
|
|||
|
* Setting the suppress bit suppresses double tap detection if acceleration
|
|||
|
* greater than the value in THRESH_TAP is present between taps. See the Tap
|
|||
|
* Detection section in the datasheet for more details.
|
|||
|
* @return Double-tap fast-movement suppression value
|
|||
|
* @see getTapThreshold()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_SUP_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapAxisSuppress() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_SUP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set double-tap fast-movement suppression.
|
|||
|
* @param enabled Double-tap fast-movement suppression value
|
|||
|
* @see getTapAxisSuppress()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_SUP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setTapAxisSuppress(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_SUP_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get double-tap fast-movement suppression.
|
|||
|
* A setting of 1 in the TAP_X enable bit enables x-axis participation in tap
|
|||
|
* detection. A setting of 0 excludes the selected axis from participation in
|
|||
|
* tap detection.
|
|||
|
* @return Double-tap fast-movement suppression value
|
|||
|
* @see getTapThreshold()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_X_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapAxisXEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_X_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set tap detection X axis inclusion.
|
|||
|
* @param enabled X axis tap detection enabled value
|
|||
|
* @see getTapAxisXEnabled()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_X_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setTapAxisXEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_X_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get tap detection Y axis inclusion.
|
|||
|
* A setting of 1 in the TAP_Y enable bit enables y-axis participation in tap
|
|||
|
* detection. A setting of 0 excludes the selected axis from participation in
|
|||
|
* tap detection.
|
|||
|
* @return Double-tap fast-movement suppression value
|
|||
|
* @see getTapThreshold()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_Y_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapAxisYEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_Y_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set tap detection Y axis inclusion.
|
|||
|
* @param enabled Y axis tap detection enabled value
|
|||
|
* @see getTapAxisYEnabled()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_Y_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setTapAxisYEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_Y_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get tap detection Z axis inclusion.
|
|||
|
* A setting of 1 in the TAP_Z enable bit enables z-axis participation in tap
|
|||
|
* detection. A setting of 0 excludes the selected axis from participation in
|
|||
|
* tap detection.
|
|||
|
* @return Double-tap fast-movement suppression value
|
|||
|
* @see getTapThreshold()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_Z_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapAxisZEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_Z_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set tap detection Z axis inclusion.
|
|||
|
* @param enabled Z axis tap detection enabled value
|
|||
|
* @see getTapAxisZEnabled()
|
|||
|
* @see ADXL345_RA_TAP_AXES
|
|||
|
* @see ADXL345_TAPAXIS_Z_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setTapAxisZEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_TAP_AXES, ADXL345_TAPAXIS_Z_BIT, enabled);
|
|||
|
}
|
|||
|
|
|||
|
// ACT_TAP_STATUS register
|
|||
|
|
|||
|
/** Get X axis activity source flag.
|
|||
|
* These bits indicate the first axis involved in a tap or activity event. A
|
|||
|
* setting of 1 corresponds to involvement in the event, and a setting of 0
|
|||
|
* corresponds to no involvement. When new data is available, these bits are not
|
|||
|
* cleared but are overwritten by the new data. The ACT_TAP_STATUS register
|
|||
|
* should be read before clearing the interrupt. Disabling an axis from
|
|||
|
* participation clears the corresponding source bit when the next activity or
|
|||
|
* single tap/double tap event occurs.
|
|||
|
* @return X axis activity source flag
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_ACTX_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivitySourceX() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_ACTX_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get Y axis activity source flag.
|
|||
|
* @return Y axis activity source flag
|
|||
|
* @see getActivitySourceX()
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_ACTY_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivitySourceY() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_ACTY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get Z axis activity source flag.
|
|||
|
* @return Z axis activity source flag
|
|||
|
* @see getActivitySourceX()
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_ACTZ_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getActivitySourceZ() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_ACTZ_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get sleep mode flag.
|
|||
|
* A setting of 1 in the asleep bit indicates that the part is asleep, and a
|
|||
|
* setting of 0 indicates that the part is not asleep. This bit toggles only if
|
|||
|
* the device is configured for auto sleep. See the AUTO_SLEEP Bit section of
|
|||
|
* the datasheet for more information on autosleep mode.
|
|||
|
* @return Sleep mode enabled flag
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_ASLEEP_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getAsleep() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_ASLEEP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get X axis tap source flag.
|
|||
|
* @return X axis tap source flag
|
|||
|
* @see getActivitySourceX()
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_TAPX_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapSourceX() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_TAPX_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get Y axis tap source flag.
|
|||
|
* @return Y axis tap source flag
|
|||
|
* @see getActivitySourceX()
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_TAPY_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapSourceY() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_TAPY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get Z axis tap source flag.
|
|||
|
* @return Z axis tap source flag
|
|||
|
* @see getActivitySourceX()
|
|||
|
* @see ADXL345_RA_ACT_TAP_STATUS
|
|||
|
* @see ADXL345_TAPSTAT_TAPZ_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getTapSourceZ() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_ACT_TAP_STATUS, ADXL345_TAPSTAT_TAPZ_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
|
|||
|
// BW_RATE register
|
|||
|
|
|||
|
/** Get low power enabled status.
|
|||
|
* A setting of 0 in the LOW_POWER bit selects normal operation, and a setting
|
|||
|
* of 1 selects reduced power operation, which has somewhat higher noise (see
|
|||
|
* the Power Modes section of the datasheet for details).
|
|||
|
* @return Low power enabled status
|
|||
|
* @see ADXL345_RA_BW_RATE
|
|||
|
* @see ADXL345_BW_LOWPOWER_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getLowPowerEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_BW_RATE, ADXL345_BW_LOWPOWER_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set low power enabled status.
|
|||
|
* @see getLowPowerEnabled()
|
|||
|
* @param enabled Low power enable setting
|
|||
|
* @see ADXL345_RA_BW_RATE
|
|||
|
* @see ADXL345_BW_LOWPOWER_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setLowPowerEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_BW_RATE, ADXL345_BW_LOWPOWER_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get measurement data rate.
|
|||
|
* These bits select the device bandwidth and output data rate (see Table 7 and
|
|||
|
* Table 8 in the datasheet for details). The default value is 0x0A, which
|
|||
|
* translates to a 100 Hz output data rate. An output data rate should be
|
|||
|
* selected that is appropriate for the communication protocol and frequency
|
|||
|
* selected. Selecting too high of an output data rate with a low communication
|
|||
|
* speed results in samples being discarded.
|
|||
|
* @return Data rate (0x0 - 0xF)
|
|||
|
* @see ADXL345_RA_BW_RATE
|
|||
|
* @see ADXL345_BW_RATE_BIT
|
|||
|
* @see ADXL345_BW_RATE_LENGTH
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getRate() {
|
|||
|
I2Cdev::readBits(devAddr, ADXL345_RA_BW_RATE, ADXL345_BW_RATE_BIT, ADXL345_BW_RATE_LENGTH, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set measurement data rate.
|
|||
|
* 0x7 = 12.5Hz
|
|||
|
* 0x8 = 25Hz, increasing or decreasing by factors of 2, so:
|
|||
|
* 0x9 = 50Hz
|
|||
|
* 0xA = 100Hz
|
|||
|
* @param rate New data rate (0x0 - 0xF)
|
|||
|
* @see ADXL345_RATE_100
|
|||
|
* @see ADXL345_RA_BW_RATE
|
|||
|
* @see ADXL345_BW_RATE_BIT
|
|||
|
* @see ADXL345_BW_RATE_LENGTH
|
|||
|
*/
|
|||
|
void ADXL345::setRate(uint8_t rate) {
|
|||
|
I2Cdev::writeBits(devAddr, ADXL345_RA_BW_RATE, ADXL345_BW_RATE_BIT, ADXL345_BW_RATE_LENGTH, rate);
|
|||
|
}
|
|||
|
|
|||
|
// POWER_CTL register
|
|||
|
|
|||
|
/** Get activity/inactivity serial linkage status.
|
|||
|
* A setting of 1 in the link bit with both the activity and inactivity
|
|||
|
* functions enabled delays the start of the activity function until
|
|||
|
* inactivity is detected. After activity is detected, inactivity detection
|
|||
|
* begins, preventing the detection of activity. This bit serially links the
|
|||
|
* activity and inactivity functions. When this bit is set to 0, the inactivity
|
|||
|
* and activity functions are concurrent. Additional information can be found
|
|||
|
* in the Link Mode section of the datasheet.
|
|||
|
*
|
|||
|
* When clearing the link bit, it is recommended that the part be placed into
|
|||
|
* standby mode and then set back to measurement mode with a subsequent write.
|
|||
|
* This is done to ensure that the device is properly biased if sleep mode is
|
|||
|
* manually disabled; otherwise, the first few samples of data after the link
|
|||
|
* bit is cleared may have additional noise, especially if the device was asleep
|
|||
|
* when the bit was cleared.
|
|||
|
*
|
|||
|
* @return Link status
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_LINK_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getLinkEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_LINK_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set activity/inactivity serial linkage status.
|
|||
|
* @param enabled New link status
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_LINK_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setLinkEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_LINK_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get auto-sleep enabled status.
|
|||
|
* If the link bit is set, a setting of 1 in the AUTO_SLEEP bit enables the
|
|||
|
* auto-sleep functionality. In this mode, the ADXL345 auto-matically switches
|
|||
|
* to sleep mode if the inactivity function is enabled and inactivity is
|
|||
|
* detected (that is, when acceleration is below the THRESH_INACT value for at
|
|||
|
* least the time indicated by TIME_INACT). If activity is also enabled, the
|
|||
|
* ADXL345 automatically wakes up from sleep after detecting activity and
|
|||
|
* returns to operation at the output data rate set in the BW_RATE register. A
|
|||
|
* setting of 0 in the AUTO_SLEEP bit disables automatic switching to sleep
|
|||
|
* mode. See the description of the Sleep Bit in this section of the datasheet
|
|||
|
* for more information on sleep mode.
|
|||
|
*
|
|||
|
* If the link bit is not set, the AUTO_SLEEP feature is disabled and setting
|
|||
|
* the AUTO_SLEEP bit does not have an impact on device operation. Refer to the
|
|||
|
* Link Bit section or the Link Mode section for more information on utilization
|
|||
|
* of the link feature.
|
|||
|
*
|
|||
|
* When clearing the AUTO_SLEEP bit, it is recommended that the part be placed
|
|||
|
* into standby mode and then set back to measure-ment mode with a subsequent
|
|||
|
* write. This is done to ensure that the device is properly biased if sleep
|
|||
|
* mode is manually disabled; otherwise, the first few samples of data after the
|
|||
|
* AUTO_SLEEP bit is cleared may have additional noise, especially if the device
|
|||
|
* was asleep when the bit was cleared.
|
|||
|
*
|
|||
|
* @return Auto-sleep enabled status
|
|||
|
* @see getActivityThreshold()
|
|||
|
* @see getInactivityThreshold()
|
|||
|
* @see getInactivityTime()
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_AUTOSLEEP_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getAutoSleepEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_AUTOSLEEP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set auto-sleep enabled status.
|
|||
|
* @param enabled New auto-sleep status
|
|||
|
* @see getAutoSleepEnabled()
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_AUTOSLEEP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setAutoSleepEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_AUTOSLEEP_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get measurement enabled status.
|
|||
|
* A setting of 0 in the measure bit places the part into standby mode, and a
|
|||
|
* setting of 1 places the part into measurement mode. The ADXL345 powers up in
|
|||
|
* standby mode with minimum power consumption.
|
|||
|
* @return Measurement enabled status
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_MEASURE_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getMeasureEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_MEASURE_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set measurement enabled status.
|
|||
|
* @param enabled Measurement enabled status
|
|||
|
* @see getMeasureEnabled()
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_MEASURE_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setMeasureEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_MEASURE_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get sleep mode enabled status.
|
|||
|
* A setting of 0 in the sleep bit puts the part into the normal mode of
|
|||
|
* operation, and a setting of 1 places the part into sleep mode. Sleep mode
|
|||
|
* suppresses DATA_READY, stops transmission of data to FIFO, and switches the
|
|||
|
* sampling rate to one specified by the wakeup bits. In sleep mode, only the
|
|||
|
* activity function can be used. When the DATA_READY interrupt is suppressed,
|
|||
|
* the output data registers (Register 0x32 to Register 0x37) are still updated
|
|||
|
* at the sampling rate set by the wakeup bits (D1:D0).
|
|||
|
*
|
|||
|
* When clearing the sleep bit, it is recommended that the part be placed into
|
|||
|
* standby mode and then set back to measurement mode with a subsequent write.
|
|||
|
* This is done to ensure that the device is properly biased if sleep mode is
|
|||
|
* manually disabled; otherwise, the first few samples of data after the sleep
|
|||
|
* bit is cleared may have additional noise, especially if the device was asleep
|
|||
|
* when the bit was cleared.
|
|||
|
*
|
|||
|
* @return Sleep enabled status
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_SLEEP_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getSleepEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_SLEEP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set sleep mode enabled status.
|
|||
|
* @param Sleep mode enabled status
|
|||
|
* @see getSleepEnabled()
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_SLEEP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setSleepEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_SLEEP_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get wakeup frequency.
|
|||
|
* These bits control the frequency of readings in sleep mode as described in
|
|||
|
* Table 20 in the datasheet. (That is, 0 = 8Hz, 1 = 4Hz, 2 = 2Hz, 3 = 1Hz)
|
|||
|
* @return Wakeup frequency (0x0 - 0x3, indicating 8/4/2/1Hz respectively)
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_SLEEP_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getWakeupFrequency() {
|
|||
|
I2Cdev::readBits(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_WAKEUP_BIT, ADXL345_PCTL_WAKEUP_LENGTH, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set wakeup frequency.
|
|||
|
* @param frequency Wakeup frequency (0x0 - 0x3, indicating 8/4/2/1Hz respectively)
|
|||
|
* @see getWakeupFrequency()
|
|||
|
* @see ADXL345_RA_POWER_CTL
|
|||
|
* @see ADXL345_PCTL_SLEEP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setWakeupFrequency(uint8_t frequency) {
|
|||
|
I2Cdev::writeBits(devAddr, ADXL345_RA_POWER_CTL, ADXL345_PCTL_WAKEUP_BIT, ADXL345_PCTL_WAKEUP_LENGTH, frequency);
|
|||
|
}
|
|||
|
|
|||
|
// INT_ENABLE register
|
|||
|
|
|||
|
/** Get DATA_READY interrupt enabled status.
|
|||
|
* Setting bits in this register to a value of 1 enables their respective
|
|||
|
* functions to generate interrupts, whereas a value of 0 prevents the functions
|
|||
|
* from generating interrupts. The DATA_READY, watermark, and overrun bits
|
|||
|
* enable only the interrupt output; the functions are always enabled. It is
|
|||
|
* recommended that interrupts be configured before enabling their outputs.
|
|||
|
* @return DATA_READY interrupt enabled status.
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_DATA_READY_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntDataReadyEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_DATA_READY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set DATA_READY interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_DATA_READY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntDataReadyEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_DATA_READY_BIT, enabled);
|
|||
|
}
|
|||
|
/** Set SINGLE_TAP interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_SINGLE_TAP_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntSingleTapEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_SINGLE_TAP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set SINGLE_TAP interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_SINGLE_TAP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntSingleTapEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_SINGLE_TAP_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get DOUBLE_TAP interrupt enabled status.
|
|||
|
* @return Interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_DOUBLE_TAP_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntDoubleTapEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_DOUBLE_TAP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set DOUBLE_TAP interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_DOUBLE_TAP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntDoubleTapEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_DOUBLE_TAP_BIT, enabled);
|
|||
|
}
|
|||
|
/** Set ACTIVITY interrupt enabled status.
|
|||
|
* @return Interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_ACTIVITY_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntActivityEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_ACTIVITY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set ACTIVITY interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_ACTIVITY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntActivityEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_ACTIVITY_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get INACTIVITY interrupt enabled status.
|
|||
|
* @return Interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_INACTIVITY_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntInactivityEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_INACTIVITY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set INACTIVITY interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_INACTIVITY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntInactivityEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_INACTIVITY_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get FREE_FALL interrupt enabled status.
|
|||
|
* @return Interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_FREE_FALL_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntFreefallEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_FREE_FALL_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set FREE_FALL interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_FREE_FALL_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntFreefallEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_FREE_FALL_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get WATERMARK interrupt enabled status.
|
|||
|
* @return Interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_WATERMARK_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntWatermarkEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_WATERMARK_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set WATERMARK interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_WATERMARK_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntWatermarkEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_WATERMARK_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get OVERRUN interrupt enabled status.
|
|||
|
* @return Interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_OVERRUN_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getIntOverrunEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_OVERRUN_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set OVERRUN interrupt enabled status.
|
|||
|
* @param enabled New interrupt enabled status
|
|||
|
* @see getIntDataReadyEnabled()
|
|||
|
* @see ADXL345_RA_INT_ENABLE
|
|||
|
* @see ADXL345_INT_OVERRUN_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntOverrunEnabled(bool enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_ENABLE, ADXL345_INT_OVERRUN_BIT, enabled);
|
|||
|
}
|
|||
|
|
|||
|
// INT_MAP register
|
|||
|
|
|||
|
/** Get DATA_READY interrupt pin.
|
|||
|
* Any bits set to 0 in this register send their respective interrupts to the
|
|||
|
* INT1 pin, whereas bits set to 1 send their respective interrupts to the INT2
|
|||
|
* pin. All selected interrupts for a given pin are OR'ed.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_DATA_READY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntDataReadyPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_DATA_READY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set DATA_READY interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_DATA_READY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntDataReadyPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_DATA_READY_BIT, pin);
|
|||
|
}
|
|||
|
/** Get SINGLE_TAP interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_SINGLE_TAP_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntSingleTapPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_SINGLE_TAP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set SINGLE_TAP interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_SINGLE_TAP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntSingleTapPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_SINGLE_TAP_BIT, pin);
|
|||
|
}
|
|||
|
/** Get DOUBLE_TAP interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_DOUBLE_TAP_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntDoubleTapPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_DOUBLE_TAP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set DOUBLE_TAP interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_DOUBLE_TAP_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntDoubleTapPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_DOUBLE_TAP_BIT, pin);
|
|||
|
}
|
|||
|
/** Get ACTIVITY interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_ACTIVITY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntActivityPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_ACTIVITY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set ACTIVITY interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_ACTIVITY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntActivityPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_ACTIVITY_BIT, pin);
|
|||
|
}
|
|||
|
/** Get INACTIVITY interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_INACTIVITY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntInactivityPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_INACTIVITY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set INACTIVITY interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_INACTIVITY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntInactivityPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_INACTIVITY_BIT, pin);
|
|||
|
}
|
|||
|
/** Get FREE_FALL interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_FREE_FALL_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntFreefallPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_FREE_FALL_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set FREE_FALL interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_FREE_FALL_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntFreefallPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_FREE_FALL_BIT, pin);
|
|||
|
}
|
|||
|
/** Get WATERMARK interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_WATERMARK_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntWatermarkPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_WATERMARK_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set WATERMARK interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_WATERMARK_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntWatermarkPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_WATERMARK_BIT, pin);
|
|||
|
}
|
|||
|
/** Get OVERRUN interrupt pin.
|
|||
|
* @return Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_OVERRUN_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntOverrunPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_OVERRUN_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set OVERRUN interrupt pin.
|
|||
|
* @param pin Interrupt pin setting
|
|||
|
* @see getIntDataReadyPin()
|
|||
|
* @see ADXL345_RA_INT_MAP
|
|||
|
* @see ADXL345_INT_OVERRUN_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setIntOverrunPin(uint8_t pin) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_INT_MAP, ADXL345_INT_OVERRUN_BIT, pin);
|
|||
|
}
|
|||
|
|
|||
|
// INT_SOURCE register
|
|||
|
|
|||
|
/** Get DATA_READY interrupt source flag.
|
|||
|
* Bits set to 1 in this register indicate that their respective functions have
|
|||
|
* triggered an event, whereas a value of 0 indicates that the corresponding
|
|||
|
* event has not occurred. The DATA_READY, watermark, and overrun bits are
|
|||
|
* always set if the corresponding events occur, regardless of the INT_ENABLE
|
|||
|
* register settings, and are cleared by reading data from the DATAX, DATAY, and
|
|||
|
* DATAZ registers. The DATA_READY and watermark bits may require multiple
|
|||
|
* reads, as indicated in the FIFO mode descriptions in the FIFO section. Other
|
|||
|
* bits, and the corresponding interrupts, are cleared by reading the INT_SOURCE
|
|||
|
* register.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_DATA_READY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntDataReadySource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_DATA_READY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get SINGLE_TAP interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_SINGLE_TAP_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntSingleTapSource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_SINGLE_TAP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get DOUBLE_TAP interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_DOUBLE_TAP_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntDoubleTapSource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_DOUBLE_TAP_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get ACTIVITY interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_ACTIVITY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntActivitySource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_ACTIVITY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get INACTIVITY interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_INACTIVITY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntInactivitySource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_INACTIVITY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get FREE_FALL interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_FREE_FALL_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntFreefallSource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_FREE_FALL_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get WATERMARK interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_WATERMARK_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntWatermarkSource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_WATERMARK_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get OVERRUN interrupt source flag.
|
|||
|
* @return Interrupt source flag
|
|||
|
* @see ADXL345_RA_INT_SOURCE
|
|||
|
* @see ADXL345_INT_OVERRUN_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getIntOverrunSource() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_INT_SOURCE, ADXL345_INT_OVERRUN_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
|
|||
|
// DATA_FORMAT register
|
|||
|
|
|||
|
/** Get self-test force enabled.
|
|||
|
* A setting of 1 in the SELF_TEST bit applies a self-test force to the sensor,
|
|||
|
* causing a shift in the output data. A value of 0 disables the self-test
|
|||
|
* force.
|
|||
|
* @return Self-test force enabled setting
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_SELFTEST_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getSelfTestEnabled() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_SELFTEST_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set self-test force enabled.
|
|||
|
* @param enabled New self-test force enabled setting
|
|||
|
* @see getSelfTestEnabled()
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_SELFTEST_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setSelfTestEnabled(uint8_t enabled) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_SELFTEST_BIT, enabled);
|
|||
|
}
|
|||
|
/** Get SPI mode setting.
|
|||
|
* A value of 1 in the SPI bit sets the device to 3-wire SPI mode, and a value
|
|||
|
* of 0 sets the device to 4-wire SPI mode.
|
|||
|
* @return SPI mode setting
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_SELFTEST_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getSPIMode() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_SPIMODE_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set SPI mode setting.
|
|||
|
* @param mode New SPI mode setting
|
|||
|
* @see getSPIMode()
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_SELFTEST_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setSPIMode(uint8_t mode) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_SPIMODE_BIT, mode);
|
|||
|
}
|
|||
|
/** Get interrupt mode setting.
|
|||
|
* A value of 0 in the INT_INVERT bit sets the interrupts to active high, and a
|
|||
|
* value of 1 sets the interrupts to active low.
|
|||
|
* @return Interrupt mode setting
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_INTMODE_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getInterruptMode() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_INTMODE_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set interrupt mode setting.
|
|||
|
* @param mode New interrupt mode setting
|
|||
|
* @see getInterruptMode()
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_INTMODE_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setInterruptMode(uint8_t mode) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_INTMODE_BIT, mode);
|
|||
|
}
|
|||
|
/** Get full resolution mode setting.
|
|||
|
* When this bit is set to a value of 1, the device is in full resolution mode,
|
|||
|
* where the output resolution increases with the g range set by the range bits
|
|||
|
* to maintain a 4 mg/LSB scale factor. When the FULL_RES bit is set to 0, the
|
|||
|
* device is in 10-bit mode, and the range bits determine the maximum g range
|
|||
|
* and scale factor.
|
|||
|
* @return Full resolution enabled setting
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_FULL_RES_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFullResolution() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_FULL_RES_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set full resolution mode setting.
|
|||
|
* @param resolution New full resolution enabled setting
|
|||
|
* @see getFullResolution()
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_FULL_RES_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setFullResolution(uint8_t resolution) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_FULL_RES_BIT, resolution);
|
|||
|
}
|
|||
|
/** Get data justification mode setting.
|
|||
|
* A setting of 1 in the justify bit selects left-justified (MSB) mode, and a
|
|||
|
* setting of 0 selects right-justified mode with sign extension.
|
|||
|
* @return Data justification mode
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_JUSTIFY_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getDataJustification() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_JUSTIFY_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set data justification mode setting.
|
|||
|
* @param justification New data justification mode
|
|||
|
* @see getDataJustification()
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_JUSTIFY_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setDataJustification(uint8_t justification) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_JUSTIFY_BIT, justification);
|
|||
|
}
|
|||
|
/** Get data range setting.
|
|||
|
* These bits set the g range as described in Table 21. (That is, 0x0 - 0x3 to
|
|||
|
* indicate 2g/4g/8g/16g respectively)
|
|||
|
* @return Range value (0x0 - 0x3 for 2g/4g/8g/16g)
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_RANGE_BIT
|
|||
|
* @see ADXL345_FORMAT_RANGE_LENGTH
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getRange() {
|
|||
|
I2Cdev::readBits(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_RANGE_BIT, ADXL345_FORMAT_RANGE_LENGTH, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set data range setting.
|
|||
|
* @param range Range value (0x0 - 0x3 for 2g/4g/8g/16g)
|
|||
|
* @see getRange()
|
|||
|
* @see ADXL345_RA_DATA_FORMAT
|
|||
|
* @see ADXL345_FORMAT_RANGE_BIT
|
|||
|
* @see ADXL345_FORMAT_RANGE_LENGTH
|
|||
|
*/
|
|||
|
void ADXL345::setRange(uint8_t range) {
|
|||
|
I2Cdev::writeBits(devAddr, ADXL345_RA_DATA_FORMAT, ADXL345_FORMAT_RANGE_BIT, ADXL345_FORMAT_RANGE_LENGTH, range);
|
|||
|
}
|
|||
|
|
|||
|
// DATA* registers
|
|||
|
|
|||
|
/** Get 3-axis accleration measurements.
|
|||
|
* These six bytes (Register 0x32 to Register 0x37) are eight bits each and hold
|
|||
|
* the output data for each axis. Register 0x32 and Register 0x33 hold the
|
|||
|
* output data for the x-axis, Register 0x34 and Register 0x35 hold the output
|
|||
|
* data for the y-axis, and Register 0x36 and Register 0x37 hold the output data
|
|||
|
* for the z-axis. The output data is twos complement, with DATAx0 as the least
|
|||
|
* significant byte and DATAx1 as the most significant byte, where x represent
|
|||
|
* X, Y, or Z. The DATA_FORMAT register (Address 0x31) controls the format of
|
|||
|
* the data. It is recommended that a multiple-byte read of all registers be
|
|||
|
* performed to prevent a change in data between reads of sequential registers.
|
|||
|
*
|
|||
|
* The DATA_FORMAT register controls the presentation of data to Register 0x32
|
|||
|
* through Register 0x37. All data, except that for the +/-16 g range, must be
|
|||
|
* clipped to avoid rollover.
|
|||
|
*
|
|||
|
* @param x 16-bit signed integer container for X-axis acceleration
|
|||
|
* @param y 16-bit signed integer container for Y-axis acceleration
|
|||
|
* @param z 16-bit signed integer container for Z-axis acceleration
|
|||
|
* @see ADXL345_RA_DATAX0
|
|||
|
*/
|
|||
|
void ADXL345::getAcceleration(int16_t* x, int16_t* y, int16_t* z) {
|
|||
|
I2Cdev::readBytes(devAddr, ADXL345_RA_DATAX0, 6, buffer);
|
|||
|
*x = (((int16_t)buffer[1]) << 8) | buffer[0];
|
|||
|
*y = (((int16_t)buffer[3]) << 8) | buffer[2];
|
|||
|
*z = (((int16_t)buffer[5]) << 8) | buffer[4];
|
|||
|
}
|
|||
|
/** Get X-axis accleration measurement.
|
|||
|
* @return 16-bit signed X-axis acceleration value
|
|||
|
* @see ADXL345_RA_DATAX0
|
|||
|
*/
|
|||
|
int16_t ADXL345::getAccelerationX() {
|
|||
|
I2Cdev::readBytes(devAddr, ADXL345_RA_DATAX0, 2, buffer);
|
|||
|
return (((int16_t)buffer[1]) << 8) | buffer[0];
|
|||
|
}
|
|||
|
/** Get Y-axis accleration measurement.
|
|||
|
* @return 16-bit signed Y-axis acceleration value
|
|||
|
* @see ADXL345_RA_DATAY0
|
|||
|
*/
|
|||
|
int16_t ADXL345::getAccelerationY() {
|
|||
|
I2Cdev::readBytes(devAddr, ADXL345_RA_DATAY0, 2, buffer);
|
|||
|
return (((int16_t)buffer[1]) << 8) | buffer[0];
|
|||
|
}
|
|||
|
/** Get Z-axis accleration measurement.
|
|||
|
* @return 16-bit signed Z-axis acceleration value
|
|||
|
* @see ADXL345_RA_DATAZ0
|
|||
|
*/
|
|||
|
int16_t ADXL345::getAccelerationZ() {
|
|||
|
I2Cdev::readBytes(devAddr, ADXL345_RA_DATAZ0, 2, buffer);
|
|||
|
return (((int16_t)buffer[1]) << 8) | buffer[0];
|
|||
|
}
|
|||
|
|
|||
|
// FIFO_CTL register
|
|||
|
|
|||
|
/** Get FIFO mode.
|
|||
|
* These bits set the FIFO mode, as described in Table 22. That is:
|
|||
|
*
|
|||
|
* 0x0 = Bypass (FIFO is bypassed.)
|
|||
|
*
|
|||
|
* 0x1 = FIFO (FIFO collects up to 32 values and then stops collecting data,
|
|||
|
* collecting new data only when FIFO is not full.)
|
|||
|
*
|
|||
|
* 0x2 = Stream (FIFO holds the last 32 data values. When FIFO is full, the
|
|||
|
* oldest data is overwritten with newer data.)
|
|||
|
*
|
|||
|
* 0x3 = Trigger (When triggered by the trigger bit, FIFO holds the last data
|
|||
|
* samples before the trigger event and then continues to collect data
|
|||
|
* until full. New data is collected only when FIFO is not full.)
|
|||
|
*
|
|||
|
* @return Curent FIFO mode
|
|||
|
* @see ADXL345_RA_FIFO_CTL
|
|||
|
* @see ADXL345_FIFO_MODE_BIT
|
|||
|
* @see ADXL345_FIFO_MODE_LENGTH
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFIFOMode() {
|
|||
|
I2Cdev::readBits(devAddr, ADXL345_RA_FIFO_CTL, ADXL345_FIFO_MODE_BIT, ADXL345_FIFO_MODE_LENGTH, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set FIFO mode.
|
|||
|
* @param mode New FIFO mode
|
|||
|
* @see getFIFOMode()
|
|||
|
* @see ADXL345_RA_FIFO_CTL
|
|||
|
* @see ADXL345_FIFO_MODE_BIT
|
|||
|
* @see ADXL345_FIFO_MODE_LENGTH
|
|||
|
*/
|
|||
|
void ADXL345::setFIFOMode(uint8_t mode) {
|
|||
|
I2Cdev::writeBits(devAddr, ADXL345_RA_FIFO_CTL, ADXL345_FIFO_MODE_BIT, ADXL345_FIFO_MODE_LENGTH, mode);
|
|||
|
}
|
|||
|
/** Get FIFO trigger interrupt setting.
|
|||
|
* A value of 0 in the trigger bit links the trigger event of trigger mode to
|
|||
|
* INT1, and a value of 1 links the trigger event to INT2.
|
|||
|
* @return Current FIFO trigger interrupt setting
|
|||
|
* @see ADXL345_RA_FIFO_CTL
|
|||
|
* @see ADXL345_FIFO_TRIGGER_BIT
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFIFOTriggerInterruptPin() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_FIFO_CTL, ADXL345_FIFO_TRIGGER_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set FIFO trigger interrupt pin setting.
|
|||
|
* @param interrupt New FIFO trigger interrupt pin setting
|
|||
|
* @see ADXL345_RA_FIFO_CTL
|
|||
|
* @see ADXL345_FIFO_TRIGGER_BIT
|
|||
|
*/
|
|||
|
void ADXL345::setFIFOTriggerInterruptPin(uint8_t interrupt) {
|
|||
|
I2Cdev::writeBit(devAddr, ADXL345_RA_FIFO_CTL, ADXL345_FIFO_TRIGGER_BIT, interrupt);
|
|||
|
}
|
|||
|
/** Get FIFO samples setting.
|
|||
|
* The function of these bits depends on the FIFO mode selected (see Table 23).
|
|||
|
* Entering a value of 0 in the samples bits immediately sets the watermark
|
|||
|
* status bit in the INT_SOURCE register, regardless of which FIFO mode is
|
|||
|
* selected. Undesirable operation may occur if a value of 0 is used for the
|
|||
|
* samples bits when trigger mode is used.
|
|||
|
*
|
|||
|
* MODE | EFFECT
|
|||
|
* --------+-------------------------------------------------------------------
|
|||
|
* Bypass | None.
|
|||
|
* FIFO | FIFO entries needed to trigger a watermark interrupt.
|
|||
|
* Stream | FIFO entries needed to trigger a watermark interrupt.
|
|||
|
* Trigger | Samples are retained in the FIFO buffer before a trigger event.
|
|||
|
*
|
|||
|
* @return Current FIFO samples setting
|
|||
|
* @see ADXL345_RA_FIFO_CTL
|
|||
|
* @see ADXL345_FIFO_SAMPLES_BIT
|
|||
|
* @see ADXL345_FIFO_SAMPLES_LENGTH
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFIFOSamples() {
|
|||
|
I2Cdev::readBits(devAddr, ADXL345_RA_FIFO_CTL, ADXL345_FIFO_SAMPLES_BIT, ADXL345_FIFO_SAMPLES_LENGTH, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Set FIFO samples setting.
|
|||
|
* @param size New FIFO samples setting (impact depends on FIFO mode setting)
|
|||
|
* @see getFIFOSamples()
|
|||
|
* @see getFIFOMode()
|
|||
|
* @see ADXL345_RA_FIFO_CTL
|
|||
|
* @see ADXL345_FIFO_SAMPLES_BIT
|
|||
|
* @see ADXL345_FIFO_SAMPLES_LENGTH
|
|||
|
*/
|
|||
|
void ADXL345::setFIFOSamples(uint8_t size) {
|
|||
|
I2Cdev::writeBits(devAddr, ADXL345_RA_FIFO_CTL, ADXL345_FIFO_SAMPLES_BIT, ADXL345_FIFO_SAMPLES_LENGTH, size);
|
|||
|
}
|
|||
|
|
|||
|
// FIFO_STATUS register
|
|||
|
|
|||
|
/** Get FIFO trigger occurred status.
|
|||
|
* A 1 in the FIFO_TRIG bit corresponds to a trigger event occurring, and a 0
|
|||
|
* means that a FIFO trigger event has not occurred.
|
|||
|
* @return FIFO trigger occurred status
|
|||
|
* @see ADXL345_RA_FIFO_STATUS
|
|||
|
* @see ADXL345_FIFOSTAT_TRIGGER_BIT
|
|||
|
*/
|
|||
|
bool ADXL345::getFIFOTriggerOccurred() {
|
|||
|
I2Cdev::readBit(devAddr, ADXL345_RA_FIFO_STATUS, ADXL345_FIFOSTAT_TRIGGER_BIT, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|
|||
|
/** Get FIFO length.
|
|||
|
* These bits report how many data values are stored in FIFO. Access to collect
|
|||
|
* the data from FIFO is provided through the DATAX, DATAY, and DATAZ registers.
|
|||
|
* FIFO reads must be done in burst or multiple-byte mode because each FIFO
|
|||
|
* level is cleared after any read (single- or multiple-byte) of FIFO. FIFO
|
|||
|
* stores a maximum of 32 entries, which equates to a maximum of 33 entries
|
|||
|
* available at any given time because an additional entry is available at the
|
|||
|
* output filter of the I2Cdev::
|
|||
|
* @return Current FIFO length
|
|||
|
* @see ADXL345_RA_FIFO_STATUS
|
|||
|
* @see ADXL345_FIFOSTAT_LENGTH_BIT
|
|||
|
* @see ADXL345_FIFOSTAT_LENGTH_LENGTH
|
|||
|
*/
|
|||
|
uint8_t ADXL345::getFIFOLength() {
|
|||
|
I2Cdev::readBits(devAddr, ADXL345_RA_FIFO_STATUS, ADXL345_FIFOSTAT_LENGTH_BIT, ADXL345_FIFOSTAT_LENGTH_LENGTH, buffer);
|
|||
|
return buffer[0];
|
|||
|
}
|