Modification to FXOS8700Q for use in Data Logger project
Dependencies: FXOS8700Q MotionSensor
Dependents: GPS_6Axis_DataLogger_SD_UDP
Fork of FXOS8700Q by
FXOS8700Q.cpp
- Committer:
- JimCarver
- Date:
- 2014-04-25
- Revision:
- 7:c53dda05b8cf
- Parent:
- 6:cdc362f08339
- Child:
- 8:52116f8fb3da
File content as of revision 7:c53dda05b8cf:
/* Copyright (c) 2010-2011 mbed.org, MIT License * * Permission is hereby granted, free of charge, to any person obtaining a copy of this software * and associated documentation files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all copies or * substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "FXOS8700Q.h" #define UINT14_MAX 16383 FXOS8700Q_acc::FXOS8700Q_acc(PinName sda, PinName scl, int addr) : m_i2c(sda, scl), m_addr(addr) { // activate the peripheral uint8_t data[2] = {FXOS8700Q_CTRL_REG1, 0x00}; m_i2c.frequency(400000); writeRegs(data, 2); data[0] = FXOS8700Q_M_CTRL_REG1; data[1] = 0x1F; writeRegs(data, 2); data[0] = FXOS8700Q_M_CTRL_REG2; data[1] = 0x20; writeRegs(data, 2); data[0] = FXOS8700Q_XYZ_DATA_CFG; data[1] = 0x00; writeRegs(data, 2); data[0] = FXOS8700Q_CTRL_REG1; data[1] = 0x18;//0x1D; writeRegs(data, 2); } FXOS8700Q_acc::~FXOS8700Q_acc() { } void FXOS8700Q_acc::enable(void) { uint8_t data[2]; readRegs( FXOS8700Q_CTRL_REG1, &data[1], 1); data[1] |= 0x01; data[0] = FXOS8700Q_CTRL_REG1; writeRegs(data, 2); } void FXOS8700Q_acc::disable(void) { uint8_t data[2]; readRegs( FXOS8700Q_CTRL_REG1, &data[1], 1); data[1] &= 0xFE; data[0] = FXOS8700Q_CTRL_REG1; writeRegs(data, 2); } uint32_t FXOS8700Q_acc::whoAmI() { uint8_t who_am_i = 0; readRegs(FXOS8700Q_WHOAMI, &who_am_i, 1); return (uint32_t) who_am_i; } uint32_t FXOS8700Q_acc::dataReady(void) { uint8_t stat = 0; readRegs(FXOS8700Q_STATUS, &stat, 1); return (uint32_t) stat; } uint32_t FXOS8700Q_acc::sampleRate(uint32_t f) { return(50); // for now sample rate is fixed at 50Hz } void FXOS8700Q_acc::getX(float * x) { *x = (float(getAccAxis(FXOS8700Q_OUT_X_MSB))/4096.0f); } void FXOS8700Q_acc::getY(float * y) { *y = (float(getAccAxis(FXOS8700Q_OUT_Y_MSB))/4096.0f); } void FXOS8700Q_acc::getZ(float * z) { *z = (float(getAccAxis(FXOS8700Q_OUT_Z_MSB))/4096.0f); } void FXOS8700Q_acc::getX(int16_t * d) { *d = getAccAxis(FXOS8700Q_OUT_X_MSB); } void FXOS8700Q_acc::getY(int16_t * d) { *d = getAccAxis(FXOS8700Q_OUT_Y_MSB); } void FXOS8700Q_acc::getZ(int16_t * d) { *d = getAccAxis(FXOS8700Q_OUT_Z_MSB); } void FXOS8700Q_acc::getAxis(MotionSensorDataUnits &data) { int16_t acc, t[3]; uint8_t res[6]; readRegs(FXOS8700Q_OUT_X_MSB, res, 6); acc = (res[0] << 6) | (res[1] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; t[0] = acc; acc = (res[2] << 6) | (res[3] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; t[1] = acc; acc = (res[4] << 6) | (res[5] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; t[2] = acc; data.x = ((float) t[0]) / 4096.0f; data.y = ((float) t[1]) / 4096.0f; data.z = ((float) t[2]) / 4096.0f; } void FXOS8700Q_acc::getAxis(MotionSensorDataCounts &data) { int16_t acc; uint8_t res[6]; readRegs(FXOS8700Q_OUT_X_MSB, res, 6); acc = (res[0] << 6) | (res[1] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; data.x = acc; acc = (res[2] << 6) | (res[3] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; data.y = acc; acc = (res[4] << 6) | (res[5] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; data.z = acc; } void FXOS8700Q_acc::readRegs(int addr, uint8_t * data, int len) { char t[1] = {addr}; m_i2c.write(m_addr, t, 1, true); m_i2c.read(m_addr, (char *)data, len); } void FXOS8700Q_acc::writeRegs(uint8_t * data, int len) { m_i2c.write(m_addr, (char *)data, len); } int16_t FXOS8700Q_acc::getAccAxis(uint8_t addr) { int16_t acc; uint8_t res[2]; readRegs(addr, res, 2); acc = (res[0] << 6) | (res[1] >> 2); if (acc > UINT14_MAX/2) acc -= UINT14_MAX; return acc; } FXOS8700Q_mag::FXOS8700Q_mag(PinName sda, PinName scl, int addr) : m_i2c(sda, scl), m_addr(addr) { // activate the peripheral uint8_t data[2] = {FXOS8700Q_CTRL_REG1, 0x00}; m_i2c.frequency(400000); writeRegs(data, 2); data[0] = FXOS8700Q_M_CTRL_REG1; data[1] = 0x1F; writeRegs(data, 2); data[0] = FXOS8700Q_M_CTRL_REG2; data[1] = 0x20; writeRegs(data, 2); data[0] = FXOS8700Q_XYZ_DATA_CFG; data[1] = 0x00; writeRegs(data, 2); data[0] = FXOS8700Q_CTRL_REG1; data[1] = 0x18;//0x1D; writeRegs(data, 2); } FXOS8700Q_mag::~FXOS8700Q_mag() { } void FXOS8700Q_mag::enable(void) { uint8_t data[2]; readRegs( FXOS8700Q_CTRL_REG1, &data[1], 1); data[1] |= 0x01; data[0] = FXOS8700Q_CTRL_REG1; writeRegs(data, 2); } void FXOS8700Q_mag::disable(void) { uint8_t data[2]; readRegs( FXOS8700Q_CTRL_REG1, &data[1], 1); data[1] &= 0xFE; data[0] = FXOS8700Q_CTRL_REG1; writeRegs(data, 2); } uint32_t FXOS8700Q_mag::whoAmI() { uint8_t who_am_i = 0; readRegs(FXOS8700Q_WHOAMI, &who_am_i, 1); return (uint32_t) who_am_i; } uint32_t FXOS8700Q_mag::dataReady(void) { uint8_t stat = 0; readRegs(FXOS8700Q_STATUS, &stat, 1); return (uint32_t) stat; } uint32_t FXOS8700Q_mag::sampleRate(uint32_t f) { return(50); // for now sample rate is fixed at 50Hz } void FXOS8700Q_mag::getX(float * x) { *x = (float(getAccAxis(FXOS8700Q_M_OUT_X_MSB)) * 0.1f); } void FXOS8700Q_mag::getY(float * y) { *y = (float(getAccAxis(FXOS8700Q_M_OUT_Y_MSB)) * 0.1f); } void FXOS8700Q_mag::getZ(float * z) { *z = (float(getAccAxis(FXOS8700Q_M_OUT_Z_MSB)) * 0.1f); } void FXOS8700Q_mag::getX(int16_t * d) { *d = getAccAxis(FXOS8700Q_M_OUT_X_MSB); } void FXOS8700Q_mag::getY(int16_t * d) { *d = getAccAxis(FXOS8700Q_M_OUT_Y_MSB); } void FXOS8700Q_mag::getZ(int16_t * d) { *d = getAccAxis(FXOS8700Q_M_OUT_Z_MSB); } void FXOS8700Q_mag::getAxis(MotionSensorDataUnits &data) { int16_t t[3]; uint8_t res[6]; readRegs(FXOS8700Q_M_OUT_X_MSB, res, 6); t[0] = (res[0] << 8) | res[1]; t[1] = (res[2] << 8) | res[3]; t[2] = (res[4] << 8) | res[5]; data.x = ((float) t[0]) * 0.1f; data.y = ((float) t[1]) * 0.1f; data.z = ((float) t[2]) * 0.1f; } void FXOS8700Q_mag::getAxis(MotionSensorDataCounts &data) { int16_t acc; uint8_t res[6]; readRegs(FXOS8700Q_M_OUT_X_MSB, res, 6); data.x = (res[0] << 8) | res[1]; data.y = (res[2] << 8) | res[3]; data.z = (res[4] << 8) | res[5]; } void FXOS8700Q_mag::readRegs(int addr, uint8_t * data, int len) { char t[1] = {addr}; m_i2c.write(m_addr, t, 1, true); m_i2c.read(m_addr, (char *)data, len); } void FXOS8700Q_mag::writeRegs(uint8_t * data, int len) { m_i2c.write(m_addr, (char *)data, len); } int16_t FXOS8700Q_mag::getAccAxis(uint8_t addr) { int16_t acc; uint8_t res[2]; readRegs(addr, res, 2); acc = (res[0] << 8) | res[1]; return acc; }