STM32L031 BMI160 陀螺仪检测到移动向单片机发送中断
开发环境:
电路板硬件:stm32L031+BMI160
软件环境:keil5.27+stm32cubemx6.2.0
开发库: HAL库
问题点:
BMI160是一个微小型的陀螺仪芯片,经过两天的调试,终于搞定了移动或晃动电路板,使BMI160芯片的INT1向单片机发出中断信号,BMI160的配置,还是挺麻烦的,特此记录一下,防止记性太差。stm32L301与BMI160 通信使用的I2C。
直接上代码:
// 0x68 << 1 = 0xD0
#define MBI160_ADDRESS 0xD0
#define AM_DEVICES_BMI160_CMD 0x7e
#define AM_DEVICES_BMI160_INT_MOTION_3 0x62
#define AM_DEVICES_BMI160_INT_MOTION_2 0x61
#define AM_DEVICES_BMI160_INT_MOTION_1 0x60
#define AM_DEVICES_BMI160_INT_MOTION_0 0x5F
#define AM_DEVICES_BMI160_INT_MAP_1 0x56
#define AM_DEVICES_BMI160_INT_MAP_0 0x55
#define AM_DEVICES_BMI160_INT_LATCH 0x54
#define AM_DEVICES_BMI160_INT_OUT_CTRL 0x53
#define AM_DEVICES_BMI160_INT_EN_2 0x52
#define AM_DEVICES_BMI160_INT_EN_1 0x51
#define AM_DEVICES_BMI160_INT_EN_0 0x50
#define AM_DEVICES_BMI160_PMU_STATUS 0x03
#define AM_DEVICES_BMI160_ERR_REG 0x02
// 写指令 buffer
uint8_t I2C_Buffer_Write[16] = {0};
// 定义变量
int gyr_x = 0, gyr_y = 0, gyr_z = 0, \
acc_x = 0, acc_y = 0, acc_z = 0;
void BMI160_Write_Reg(uint8_t reg, uint8_t val)
{
I2C_Buffer_Write[0] = reg ; ;
I2C_Buffer_Write[1] = val;
HAL_I2C_Master_Transmit(&hi2c1, MBI160_ADDRESS, I2C_Buffer_Write, 2, 1000);
HAL_Delay(50);
}
void BMI160_Read_Reg(uint8_t reg, uint16_t data_len)
{
I2C_Buffer_Write[0] = reg;
I2C_Buffer_Write[1] = 0x0c;
HAL_I2C_Master_Transmit(&hi2c1, MBI160_ADDRESS, I2C_Buffer_Write, 1, 1000);
HAL_Delay(5);
memset(I2C_Buffer_Write, 0, sizeof(I2C_Buffer_Write));
HAL_I2C_Master_Receive(&hi2c1, MBI160_ADDRESS, I2C_Buffer_Write, data_len, 1000);
}
// 初始化一下BMI160 若有晃动,移动,INT1 发出中断信号
void init_bmi160()
{
uint8_t ui8Attempts = 20;
uint8_t ui8Status = 0;
// 重启 BMI160
BMI160_Write_Reg(AM_DEVICES_BMI160_CMD, 0xB6);
while (ui8Status != 0x24 && ui8Attempts--)
{
// BMI160 陀螺仪 通用模式
BMI160_Write_Reg(AM_DEVICES_BMI160_CMD, 0x15);
// BMI160 加速器 low power
BMI160_Write_Reg(AM_DEVICES_BMI160_CMD, 0x12);
BMI160_Read_Reg(AM_DEVICES_BMI160_PMU_STATUS, 1);
ui8Status = I2C_Buffer_Write[0];
#if GYROSCOPE_DEBUG
printf ("PMU_STATUS=%02Xr\n", I2C_Buffer_Write[0]);
#endif
}
BMI160_Read_Reg(AM_DEVICES_BMI160_ERR_REG, 1);
#if GYROSCOPE_DEBUG
printf ("_ERR_REG=%02X\r\n", I2C_Buffer_Write[0]);
#endif
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MOTION_0, 0x00);
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MOTION_1, 0x14);
//BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MOTION_2, 0xFF);
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MOTION_3, 0x02);
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_OUT_CTRL, 0x0A);
//BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MAP_2, 0x07);
//BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MAP_1, 0x07);
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_MAP_0, 0x07);
// INT_EN_0
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_EN_0, 0x07);
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_EN_1, 0x07);
BMI160_Write_Reg(AM_DEVICES_BMI160_INT_EN_2, 0x07);
}
// 读取I2c数据。
void i2c_read_data()
{
HAL_Delay(100);
I2C_Buffer_Write[0] = 0x0c;
I2C_Buffer_Write[1] = 0x0c;
HAL_I2C_Master_Transmit(&hi2c1, MBI160_ADDRESS, I2C_Buffer_Write, 1, 1000);
HAL_Delay(5);
memset(I2C_Buffer_Write, 0, sizeof(I2C_Buffer_Write));
HAL_I2C_Master_Receive(&hi2c1, MBI160_ADDRESS, I2C_Buffer_Write, 6, 1000);
gyr_x = I2C_Buffer_Write[0] | (I2C_Buffer_Write[1] << 8);
if(gyr_x > 0x7fff)
{
gyr_x = -(0xffff - gyr_x);
}
gyr_x = (gyr_x * 2000) / 0x8000;
gyr_y = I2C_Buffer_Write[2] | (I2C_Buffer_Write[3] << 8);
if(gyr_y > 0x7fff)
{
gyr_y = -(0xffff - gyr_y);
}
gyr_y = (gyr_y * 2000) / 0x8000;
gyr_z = I2C_Buffer_Write[4] | (I2C_Buffer_Write[5] << 8);
if(gyr_z > 0x7fff)
{
gyr_z = -(0xffff - gyr_z);
}
gyr_z = (gyr_z * 2000) / 0x8000;
#if GYROSCOPE_DEBUG
printf("read i2c=\r\n %02x, %02x, %02x, %02x, %02x, %02x\r\n",
I2C_Buffer_Write[0], I2C_Buffer_Write[1], I2C_Buffer_Write[2],
I2C_Buffer_Write[3], I2C_Buffer_Write[4], I2C_Buffer_Write[5]);
printf("gyr_x=%d, gyr_y=%d, gyr_z=%d\r\n", gyr_x, gyr_y, gyr_z);
#endif
if (abs(gyr_z) + abs(gyr_x) + abs(gyr_y) >= 5)
{
#if GYROSCOPE_DEBUG
printf("warnning REMOVE \r\n");
#endif
}
}
参考:
https://blog.csdn.net/wangyijieonline/article/details/52925908
<完毕>
本文来自博客园,作者:晨与飞扬,转载请注明原文链接:https://www.cnblogs.com/qs52/p/18864714
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