Vins version of FXOS8700CQ library for use in mbed online compiler

Fork of FXOS8700CQ by Mac Lobdell

Committer:
trm
Date:
Wed May 28 17:08:33 2014 +0000
Revision:
2:4c2f8a3549a9
Parent:
0:cf6299acfe98
Child:
3:2ce85aa45d7d
Updates to correctness! Correctly fill accel/magn data structs. Access to accel sensor scale (2/4/8g). More comments and documentation. #define for many configuration register properties.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
trm 0:cf6299acfe98 1 #include "FXOS8700CQ.h"
trm 0:cf6299acfe98 2
trm 0:cf6299acfe98 3 uint8_t status_reg; // Status register contents
trm 0:cf6299acfe98 4 uint8_t raw[FXOS8700CQ_READ_LEN]; // Buffer for reading out stored data
trm 0:cf6299acfe98 5
trm 0:cf6299acfe98 6 // Construct class and its contents
trm 0:cf6299acfe98 7 FXOS8700CQ::FXOS8700CQ(PinName sda, PinName scl, int addr) : dev_i2c(sda, scl), dev_addr(addr)
trm 0:cf6299acfe98 8 {
trm 0:cf6299acfe98 9 // Initialization of the FXOS8700CQ
trm 0:cf6299acfe98 10 dev_i2c.frequency(I2C_400K); // Use maximum I2C frequency
trm 0:cf6299acfe98 11 uint8_t data[6] = {0, 0, 0, 0, 0, 0}; // target device write address, single byte to write at address
trm 0:cf6299acfe98 12
trm 0:cf6299acfe98 13 // TODO: verify WHOAMI?
trm 2:4c2f8a3549a9 14
trm 0:cf6299acfe98 15 // TODO: un-magic-number register configuration
trm 0:cf6299acfe98 16
trm 0:cf6299acfe98 17 // Place peripheral in standby for configuration, resetting CTRL_REG1
trm 0:cf6299acfe98 18 data[0] = FXOS8700CQ_CTRL_REG1;
trm 2:4c2f8a3549a9 19 data[1] = 0x00; // this will unset CTRL_REG1:active
trm 0:cf6299acfe98 20 write_regs(data, 2);
trm 0:cf6299acfe98 21
trm 0:cf6299acfe98 22 // Now that the device is in standby, configure registers
trm 0:cf6299acfe98 23
trm 0:cf6299acfe98 24 // Setup for write-though for CTRL_REG series
trm 0:cf6299acfe98 25 // Keep data[0] as FXOS8700CQ_CTRL_REG1
trm 2:4c2f8a3549a9 26 data[1] =
trm 2:4c2f8a3549a9 27 FXOS8700CQ_CTRL_REG1_ASLP_RATE2(1) | // 0b01 gives sleep rate of 12.5Hz
trm 2:4c2f8a3549a9 28 FXOS8700CQ_CTRL_REG1_DR3(1); // 0x001 gives ODR of 400Hz/200Hz hybrid
trm 0:cf6299acfe98 29
trm 0:cf6299acfe98 30 // FXOS8700CQ_CTRL_REG2;
trm 2:4c2f8a3549a9 31 data[2] =
trm 2:4c2f8a3549a9 32 FXOS8700CQ_CTRL_REG2_SMODS2(3) | // 0b11 gives low power sleep oversampling mode
trm 2:4c2f8a3549a9 33 FXOS8700CQ_CTRL_REG2_MODS2(1); // 0b01 gives low noise, low power oversampling mode
trm 0:cf6299acfe98 34
trm 0:cf6299acfe98 35 // No configuration changes from default 0x00 in CTRL_REG3
trm 0:cf6299acfe98 36 // Interrupts will be active low
trm 0:cf6299acfe98 37 data[3] = 0x00;
trm 0:cf6299acfe98 38
trm 0:cf6299acfe98 39 // FXOS8700CQ_CTRL_REG4;
trm 2:4c2f8a3549a9 40 data[4] =
trm 2:4c2f8a3549a9 41 FXOS8700CQ_CTRL_REG4_INT_EN_DRDY;
trm 0:cf6299acfe98 42
trm 0:cf6299acfe98 43 // No configuration changes from default 0x00 in CTRL_REG5
trm 0:cf6299acfe98 44 // Data ready interrupt will appear on INT2
trm 0:cf6299acfe98 45 data[5] = 0x00;
trm 0:cf6299acfe98 46
trm 0:cf6299acfe98 47 // Write to the 5 CTRL_REG registers
trm 0:cf6299acfe98 48 write_regs(data, 6);
trm 0:cf6299acfe98 49
trm 2:4c2f8a3549a9 50 // FXOS8700CQ_XYZ_DATA_CFG
trm 2:4c2f8a3549a9 51 data[0] = FXOS8700CQ_XYZ_DATA_CFG;
trm 2:4c2f8a3549a9 52 data[1] =
trm 2:4c2f8a3549a9 53 FXOS8700CQ_XYZ_DATA_CFG_FS2(1); // 0x01 gives 4g full range, 0.488mg/LSB
trm 2:4c2f8a3549a9 54 write_regs(data, 2);
trm 0:cf6299acfe98 55
trm 0:cf6299acfe98 56 // Setup for write-through for M_CTRL_REG series
trm 0:cf6299acfe98 57 data[0] = FXOS8700CQ_M_CTRL_REG1;
trm 2:4c2f8a3549a9 58 data[1] =
trm 2:4c2f8a3549a9 59 FXOS8700CQ_M_CTRL_REG1_M_ACAL | // set automatic calibration
trm 2:4c2f8a3549a9 60 FXOS8700CQ_M_CTRL_REG1_MO_OS3(7) | // use maximum magnetic oversampling
trm 2:4c2f8a3549a9 61 FXOS8700CQ_M_CTRL_REG1_M_HMS2(3); // enable hybrid sampling (both sensors)
trm 0:cf6299acfe98 62
trm 0:cf6299acfe98 63 // FXOS8700CQ_M_CTRL_REG2
trm 2:4c2f8a3549a9 64 data[2] =
trm 2:4c2f8a3549a9 65 FXOS8700CQ_M_CTRL_REG2_HYB_AUTOINC_MODE;
trm 0:cf6299acfe98 66
trm 0:cf6299acfe98 67 // FXOS8700CQ_M_CTRL_REG3
trm 2:4c2f8a3549a9 68 data[3] =
trm 2:4c2f8a3549a9 69 FXOS8700CQ_M_CTRL_REG3_M_ASLP_OS3(7); // maximum sleep magnetic oversampling
trm 0:cf6299acfe98 70
trm 0:cf6299acfe98 71 // Write to the 3 M_CTRL_REG registers
trm 0:cf6299acfe98 72 write_regs(data, 4);
trm 0:cf6299acfe98 73
trm 0:cf6299acfe98 74 // Peripheral is configured, but disabled
trm 2:4c2f8a3549a9 75 enabled = false;
trm 0:cf6299acfe98 76 }
trm 0:cf6299acfe98 77
trm 0:cf6299acfe98 78 // Destruct class
trm 0:cf6299acfe98 79 FXOS8700CQ::~FXOS8700CQ(void) {}
trm 0:cf6299acfe98 80
trm 0:cf6299acfe98 81
trm 0:cf6299acfe98 82 void FXOS8700CQ::enable(void)
trm 0:cf6299acfe98 83 {
trm 0:cf6299acfe98 84 uint8_t data[2];
trm 0:cf6299acfe98 85 read_regs( FXOS8700CQ_CTRL_REG1, &data[1], 1);
trm 2:4c2f8a3549a9 86 data[1] |= FXOS8700CQ_CTRL_REG1_ACTIVE;
trm 0:cf6299acfe98 87 data[0] = FXOS8700CQ_CTRL_REG1;
trm 0:cf6299acfe98 88 write_regs(data, 2); // write back
trm 2:4c2f8a3549a9 89
trm 2:4c2f8a3549a9 90 enabled = true;
trm 0:cf6299acfe98 91 }
trm 0:cf6299acfe98 92
trm 0:cf6299acfe98 93 void FXOS8700CQ::disable(void)
trm 0:cf6299acfe98 94 {
trm 0:cf6299acfe98 95 uint8_t data[2];
trm 0:cf6299acfe98 96 read_regs( FXOS8700CQ_CTRL_REG1, &data[1], 1);
trm 0:cf6299acfe98 97 data[0] = FXOS8700CQ_CTRL_REG1;
trm 2:4c2f8a3549a9 98 data[1] &= ~FXOS8700CQ_CTRL_REG1_ACTIVE;
trm 0:cf6299acfe98 99 write_regs(data, 2); // write back
trm 2:4c2f8a3549a9 100
trm 2:4c2f8a3549a9 101 enabled = false;
trm 0:cf6299acfe98 102 }
trm 0:cf6299acfe98 103
trm 0:cf6299acfe98 104
trm 0:cf6299acfe98 105 uint8_t FXOS8700CQ::status(void)
trm 0:cf6299acfe98 106 {
trm 0:cf6299acfe98 107 read_regs(FXOS8700CQ_STATUS, &status_reg, 1);
trm 0:cf6299acfe98 108 return status_reg;
trm 0:cf6299acfe98 109 }
trm 0:cf6299acfe98 110
trm 0:cf6299acfe98 111 uint8_t FXOS8700CQ::get_whoami(void)
trm 0:cf6299acfe98 112 {
trm 0:cf6299acfe98 113 uint8_t databyte = 0x00;
trm 0:cf6299acfe98 114 read_regs(FXOS8700CQ_WHOAMI, &databyte, 1);
trm 0:cf6299acfe98 115 return databyte;
trm 0:cf6299acfe98 116 }
trm 0:cf6299acfe98 117
trm 2:4c2f8a3549a9 118 uint8_t FXOS8700CQ::get_data(SRAWDATA *accel_data, SRAWDATA *magn_data)
trm 0:cf6299acfe98 119 {
trm 2:4c2f8a3549a9 120 if(!enabled) {
trm 2:4c2f8a3549a9 121 return 1;
trm 2:4c2f8a3549a9 122 }
trm 2:4c2f8a3549a9 123
trm 2:4c2f8a3549a9 124 read_regs(FXOS8700CQ_M_OUT_X_MSB, raw, FXOS8700CQ_READ_LEN);
trm 0:cf6299acfe98 125
trm 0:cf6299acfe98 126 // Pull out 16-bit, 2's complement magnetometer data
trm 0:cf6299acfe98 127 magn_data->x = (raw[0] << 8) | raw[1];
trm 0:cf6299acfe98 128 magn_data->y = (raw[2] << 8) | raw[3];
trm 0:cf6299acfe98 129 magn_data->z = (raw[4] << 8) | raw[5];
trm 0:cf6299acfe98 130
trm 0:cf6299acfe98 131 // Pull out 14-bit, 2's complement, right-justified accelerometer data
trm 0:cf6299acfe98 132 accel_data->x = (raw[6] << 8) | raw[7];
trm 0:cf6299acfe98 133 accel_data->y = (raw[8] << 8) | raw[9];
trm 0:cf6299acfe98 134 accel_data->z = (raw[10] << 8) | raw[11];
trm 2:4c2f8a3549a9 135
trm 2:4c2f8a3549a9 136 // Have to apply corrections to make the int16_t correct
trm 2:4c2f8a3549a9 137 if(accel_data->x > UINT14_MAX/2) {
trm 2:4c2f8a3549a9 138 accel_data->x -= UINT14_MAX;
trm 2:4c2f8a3549a9 139 }
trm 2:4c2f8a3549a9 140 if(accel_data->y > UINT14_MAX/2) {
trm 2:4c2f8a3549a9 141 accel_data->y -= UINT14_MAX;
trm 2:4c2f8a3549a9 142 }
trm 2:4c2f8a3549a9 143 if(accel_data->z > UINT14_MAX/2) {
trm 2:4c2f8a3549a9 144 accel_data->z -= UINT14_MAX;
trm 2:4c2f8a3549a9 145 }
trm 2:4c2f8a3549a9 146
trm 2:4c2f8a3549a9 147 return 0;
trm 0:cf6299acfe98 148 }
trm 0:cf6299acfe98 149
trm 2:4c2f8a3549a9 150 uint8_t FXOS8700CQ::get_accel_scale(void)
trm 2:4c2f8a3549a9 151 {
trm 2:4c2f8a3549a9 152 uint8_t data = 0x00;
trm 2:4c2f8a3549a9 153 read_regs(FXOS8700CQ_XYZ_DATA_CFG, &data, 1);
trm 2:4c2f8a3549a9 154 data &= FXOS8700CQ_XYZ_DATA_CFG_FS2(3); // mask with 0b11
trm 2:4c2f8a3549a9 155
trm 2:4c2f8a3549a9 156 switch(data) {
trm 2:4c2f8a3549a9 157 case FXOS8700CQ_XYZ_DATA_CFG_FS2(0):
trm 2:4c2f8a3549a9 158 return 2;
trm 2:4c2f8a3549a9 159 case FXOS8700CQ_XYZ_DATA_CFG_FS2(1):
trm 2:4c2f8a3549a9 160 return 4;
trm 2:4c2f8a3549a9 161 case FXOS8700CQ_XYZ_DATA_CFG_FS2(2):
trm 2:4c2f8a3549a9 162 return 8;
trm 2:4c2f8a3549a9 163 default:
trm 2:4c2f8a3549a9 164 return 0;
trm 2:4c2f8a3549a9 165 }
trm 2:4c2f8a3549a9 166 }
trm 0:cf6299acfe98 167
trm 0:cf6299acfe98 168 // Private methods
trm 0:cf6299acfe98 169
trm 0:cf6299acfe98 170 void FXOS8700CQ::read_regs(int reg_addr, uint8_t* data, int len)
trm 0:cf6299acfe98 171 {
trm 0:cf6299acfe98 172 char t[1] = {reg_addr};
trm 0:cf6299acfe98 173 dev_i2c.write(dev_addr, t, 1, true);
trm 0:cf6299acfe98 174 dev_i2c.read(dev_addr, (char *)data, len);
trm 0:cf6299acfe98 175 }
trm 0:cf6299acfe98 176
trm 0:cf6299acfe98 177 void FXOS8700CQ::write_regs(uint8_t* data, int len)
trm 0:cf6299acfe98 178 {
trm 0:cf6299acfe98 179 dev_i2c.write(dev_addr, (char*)data, len);
trm 0:cf6299acfe98 180 }