canuck lehead
mma8451q driver with a few minor modifications
Fork of
lib_mma8451q
by 
wayne roberts
mma8451q.cpp
- Committer:
- dudmuck
- Date:
- 2015-03-18
- Revision:
- 0:cb0046a629c1
- Child:
- 1:778b685c3ad0
File content as of revision 0:cb0046a629c1:
#include "mma8451q.h"
/* turn on: CTRL_REG1 active_bit = 1
* back to standby: CTRL_REG1 active_bit = 0
*/
/* STANDBY: SYSMOD = 00 */
/*
* MMA8451 I2C address
*/
#define MMA8451_I2C_ADDRESS 0x38 //0x1C
MMA8451Q::MMA8451Q(I2C& r) : m_i2c(r)
{
/* char cmd[2];
cmd[0] = MMA8451_ID;
m_i2c.read(MMA8451_I2C_ADDRESS, cmd, 1);*/
}
MMA8451Q::~MMA8451Q()
{
}
void MMA8451Q::read(uint8_t addr, uint8_t *dst_buf, int length)
{
char cmd[2];
cmd[0] = addr;
if (m_i2c.write(MMA8451_I2C_ADDRESS, cmd, 1, true))
printf("MMA8451Q write-fail\n");
if (m_i2c.read(MMA8451_I2C_ADDRESS, (char *)dst_buf, length))
printf("MMA8451Q read-fail\n");
}
uint8_t MMA8451Q::read_single(uint8_t addr)
{
char cmd[2];
cmd[0] = addr;
if (m_i2c.write(MMA8451_I2C_ADDRESS, cmd, 1, true))
printf("MMA8451Q write-fail\n");
if (m_i2c.read(MMA8451_I2C_ADDRESS, cmd, 1))
printf("MMA8451Q read-fail\n");
return cmd[0];
}
void MMA8451Q::print_regs()
{
printf("ID: %x\n", read_single(MMA8451_ID));
printf("sysmod:%x\n", read_single(MMA8451_SYSMOD));
ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1);
printf("ctrl_reg1:%x\n", ctrl_reg1.octet);
printf("ctrl_reg2:%x\n", read_single(MMA8451_CTRL_REG2));
printf("status: %x\n", read_single(MMA8451_STATUS));
}
void MMA8451Q::write(uint8_t addr, uint8_t data)
{
uint8_t cmd[2];
cmd[0] = addr;
cmd[1] = data;
if (m_i2c.write(MMA8451_I2C_ADDRESS, (char *)cmd, 2))
printf("MMA8451Q write-fail\n");
}
void MMA8451Q::set_active(char arg)
{
char cmd[2];
cmd[0] = MMA8451_CTRL_REG1;
cmd[1] = arg;
if (m_i2c.write(MMA8451_I2C_ADDRESS, cmd, 2))
printf("write-fail\n");
}
uint8_t MMA8451Q::get_active(void)
{
uint8_t ret = read_single(MMA8451_CTRL_REG1);
printf("CTRL_REG1: %x\n", ret);
return ret;
}
void MMA8451Q::transient_detect()
{
ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1);
/* AN4071 Sensors Freescale Semiconductor, Inc.
* 7.1 Example Steps for Configuring Transient Detection
* Change in X or Y > 0.5g for 50 ms at 100 Hz ODR, Normal mode */
/* Step 1: Put the device in Standby Mode: Register 0x2A CTRL_REG1 */
ctrl_reg1.bits.ACTIVE = 0;
write(MMA8451_CTRL_REG1, ctrl_reg1.octet);
ctrl_reg1.bits.DR = 3; //Set device in 100 Hz ODR, Standby
write(MMA8451_CTRL_REG1, ctrl_reg1.octet);
/* Step 2: Enable X and Y Axes and enable the latch: Register 0x1D Configuration Register */
transient_cfg.octet = 0;
transient_cfg.bits.ELE = 1; // enable latch
transient_cfg.bits.YTEFE = 1; // enable Y
transient_cfg.bits.XTEFE = 1; // enable X
transient_cfg.bits.ZTEFE = 1; // enable Z
write(MMA8451_TRANSIENT_CFG, transient_cfg.octet);
/* Step 3: Set the Threshold: Register 0x1F
* Note: Step count is 0.063g per count, 0.5g / 0.063g = 7.93.
* Therefore set the threshold to 8 counts */
write(MMA8451_TRANSIENT_THS, 8);
/* Step 4: Set the Debounce Counter for 50 ms: Register 0x20
* Note: 100 Hz ODR, therefore 10 ms step sizes */
write(MMA8451_TRANSIENT_COUNT, 5);
/* Step 5: Enable Transient Detection Interrupt in the System (CTRL_REG4) */
ctrl_reg4.octet = 0;
ctrl_reg4.bits.INT_EN_TRANS = 1;
write(MMA8451_CTRL_REG4, ctrl_reg4.octet);
/* Step 6: Route the Transient Interrupt to INT 1 hardware pin (CTRL_REG5) */
ctrl_reg5.octet = 0;
ctrl_reg5.bits.INT_CFG_TRANS = 1;
write(MMA8451_CTRL_REG5, ctrl_reg5.octet);
/* Step 7: Put the device in Active Mode: Register 0x2A CTRL_REG1 */
ctrl_reg1.octet = read_single(MMA8451_CTRL_REG1);
ctrl_reg1.bits.ACTIVE = 1;
write(MMA8451_CTRL_REG1, ctrl_reg1.octet);
/* Step 8: Write Interrupt Service Routine Reading the
* System Interrupt Status and the Transient Status */
}