FXOS8700CQ - GSMA version

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FXOS8700CQ.cpp@0:cf6299acfe98, 2014-05-28 (annotated)

Committer:: trm
Date:: Wed May 28 13:28:18 2014 +0000
Revision:: 0:cf6299acfe98
Child:: 2:4c2f8a3549a9

Successful driver for FXOS8700CQ on FRDM-K64F. Configured for 2g accelerometer range, hybrid readings at 200Hz, data ready interrupts on INT2, auto-zero of the magnometer, full-data read. WARNING: data is swapped acc/magn and acc data is 4x large.

Who changed what in which revision?

User	Revision	Line number	New 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	0:cf6299acfe98	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	0:cf6299acfe98	19	// Keep data[1] as 0x00
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	0:cf6299acfe98	26	data[1] = 0x08; // 400 Hz single rate, 200 Hz hybrid mode
trm	0:cf6299acfe98	27
trm	0:cf6299acfe98	28	// FXOS8700CQ_CTRL_REG2;
trm	0:cf6299acfe98	29	data[2] = 0x18; // set low power sleep sampling, no auto sleep, normal sampling
trm	0:cf6299acfe98	30
trm	0:cf6299acfe98	31	// No configuration changes from default 0x00 in CTRL_REG3
trm	0:cf6299acfe98	32	// Interrupts will be active low
trm	0:cf6299acfe98	33	data[3] = 0x00;
trm	0:cf6299acfe98	34
trm	0:cf6299acfe98	35	// FXOS8700CQ_CTRL_REG4;
trm	0:cf6299acfe98	36	data[4] = 0x01; // enable data ready interrupt
trm	0:cf6299acfe98	37
trm	0:cf6299acfe98	38	// No configuration changes from default 0x00 in CTRL_REG5
trm	0:cf6299acfe98	39	// Data ready interrupt will appear on INT2
trm	0:cf6299acfe98	40	data[5] = 0x00;
trm	0:cf6299acfe98	41
trm	0:cf6299acfe98	42	// Write to the 5 CTRL_REG registers
trm	0:cf6299acfe98	43	write_regs(data, 6);
trm	0:cf6299acfe98	44
trm	0:cf6299acfe98	45	// No configuration changes from default 0x00 in XYZ_DATA_CFG
trm	0:cf6299acfe98	46	// No high pass filter and +/- 2g range for accelerometer
trm	0:cf6299acfe98	47	// Do not write any changes
trm	0:cf6299acfe98	48
trm	0:cf6299acfe98	49	// Setup for write-through for M_CTRL_REG series
trm	0:cf6299acfe98	50	data[0] = FXOS8700CQ_M_CTRL_REG1;
trm	0:cf6299acfe98	51	data[1] = 0x9F; // automatic calibration, maximum oversampling, hybrid sampling mode
trm	0:cf6299acfe98	52
trm	0:cf6299acfe98	53	// FXOS8700CQ_M_CTRL_REG2
trm	0:cf6299acfe98	54	data[2] = 0x20; // allow automatic read-through from accel to magn data at acc_z (0x05/0x06)
trm	0:cf6299acfe98	55
trm	0:cf6299acfe98	56	// FXOS8700CQ_M_CTRL_REG3
trm	0:cf6299acfe98	57	data[3] = 0x70; // use calibration data, sleep oversampling
trm	0:cf6299acfe98	58
trm	0:cf6299acfe98	59	// Write to the 3 M_CTRL_REG registers
trm	0:cf6299acfe98	60	write_regs(data, 4);
trm	0:cf6299acfe98	61
trm	0:cf6299acfe98	62	// Peripheral is configured, but disabled
trm	0:cf6299acfe98	63	}
trm	0:cf6299acfe98	64
trm	0:cf6299acfe98	65	// Destruct class
trm	0:cf6299acfe98	66	FXOS8700CQ::~FXOS8700CQ(void) {}
trm	0:cf6299acfe98	67
trm	0:cf6299acfe98	68
trm	0:cf6299acfe98	69	void FXOS8700CQ::enable(void)
trm	0:cf6299acfe98	70	{
trm	0:cf6299acfe98	71	uint8_t data[2];
trm	0:cf6299acfe98	72	read_regs( FXOS8700CQ_CTRL_REG1, &data[1], 1);
trm	0:cf6299acfe98	73	data[1] \|= 0x01; // set bit 0, CTRL_REG1:active
trm	0:cf6299acfe98	74	data[0] = FXOS8700CQ_CTRL_REG1;
trm	0:cf6299acfe98	75	write_regs(data, 2); // write back
trm	0:cf6299acfe98	76	}
trm	0:cf6299acfe98	77
trm	0:cf6299acfe98	78	void FXOS8700CQ::disable(void)
trm	0:cf6299acfe98	79	{
trm	0:cf6299acfe98	80	uint8_t data[2];
trm	0:cf6299acfe98	81	read_regs( FXOS8700CQ_CTRL_REG1, &data[1], 1);
trm	0:cf6299acfe98	82	data[1] &= 0xFE; // unset bit 0, CTRL_REG1:active
trm	0:cf6299acfe98	83	data[0] = FXOS8700CQ_CTRL_REG1;
trm	0:cf6299acfe98	84	write_regs(data, 2); // write back
trm	0:cf6299acfe98	85	}
trm	0:cf6299acfe98	86
trm	0:cf6299acfe98	87
trm	0:cf6299acfe98	88	uint8_t FXOS8700CQ::status(void)
trm	0:cf6299acfe98	89	{
trm	0:cf6299acfe98	90	read_regs(FXOS8700CQ_STATUS, &status_reg, 1);
trm	0:cf6299acfe98	91	return status_reg;
trm	0:cf6299acfe98	92	}
trm	0:cf6299acfe98	93
trm	0:cf6299acfe98	94	uint8_t FXOS8700CQ::get_whoami(void)
trm	0:cf6299acfe98	95	{
trm	0:cf6299acfe98	96	uint8_t databyte = 0x00;
trm	0:cf6299acfe98	97	read_regs(FXOS8700CQ_WHOAMI, &databyte, 1);
trm	0:cf6299acfe98	98	return databyte;
trm	0:cf6299acfe98	99	}
trm	0:cf6299acfe98	100
trm	0:cf6299acfe98	101	void FXOS8700CQ::get_data(SRAWDATA accel_data, SRAWDATA magn_data)
trm	0:cf6299acfe98	102	{
trm	0:cf6299acfe98	103	read_regs(FXOS8700CQ_OUT_X_MSB, raw, FXOS8700CQ_READ_LEN); // WRONG, getting accel then magn
trm	0:cf6299acfe98	104
trm	0:cf6299acfe98	105	// Pull out 16-bit, 2's complement magnetometer data
trm	0:cf6299acfe98	106	magn_data->x = (raw[0] << 8) \| raw[1];
trm	0:cf6299acfe98	107	magn_data->y = (raw[2] << 8) \| raw[3];
trm	0:cf6299acfe98	108	magn_data->z = (raw[4] << 8) \| raw[5];
trm	0:cf6299acfe98	109
trm	0:cf6299acfe98	110	// Below is wrong, using left-justified version
trm	0:cf6299acfe98	111	// Pull out 14-bit, 2's complement, right-justified accelerometer data
trm	0:cf6299acfe98	112	accel_data->x = (raw[6] << 8) \| raw[7];
trm	0:cf6299acfe98	113	accel_data->y = (raw[8] << 8) \| raw[9];
trm	0:cf6299acfe98	114	accel_data->z = (raw[10] << 8) \| raw[11];
trm	0:cf6299acfe98	115	}
trm	0:cf6299acfe98	116
trm	0:cf6299acfe98	117
trm	0:cf6299acfe98	118	// Private methods
trm	0:cf6299acfe98	119
trm	0:cf6299acfe98	120	void FXOS8700CQ::read_regs(int reg_addr, uint8_t* data, int len)
trm	0:cf6299acfe98	121	{
trm	0:cf6299acfe98	122	char t[1] = {reg_addr};
trm	0:cf6299acfe98	123	dev_i2c.write(dev_addr, t, 1, true);
trm	0:cf6299acfe98	124	dev_i2c.read(dev_addr, (char *)data, len);
trm	0:cf6299acfe98	125	}
trm	0:cf6299acfe98	126
trm	0:cf6299acfe98	127	void FXOS8700CQ::write_regs(uint8_t* data, int len)
trm	0:cf6299acfe98	128	{
trm	0:cf6299acfe98	129	dev_i2c.write(dev_addr, (char*)data, len);
trm	0:cf6299acfe98	130	}

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Type:	Library
Created:	26 Oct 2016
Imports:	0
Forks:	0
Commits:	6
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FXOS8700CQ.cpp@0:cf6299acfe98, 2014-05-28 (annotated)

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