这是一个气压计模块,可以读取气压和温度,计算海拔。
连接方式iic
数据获取流程:
注意:
long BMP_Read_UT(void)和long BMP_Read_UP(void)一定要有 HAL_Delay(5); 的延时
bmp180.c
#include "bmp180.h"
//存储BMP180数据的结构
_bmp180 bmp180;
//写一个数据到BMP180
void BMP_WriteOneByte(uint8_t add,uint8_t data)
{
uint8_t *pData;
pData = &data;
HAL_I2C_Mem_Write(&hi2c1,0xEE,add,I2C_MEMADD_SIZE_8BIT,pData,1,100);
//使用这条子函数写入数据需要把数据放入数组,然后把数组的名字作为参数传递。详细看开发手册
}
//从BMP180读一个字节数据
uint8_t BMP_ReadOneByte(uint8_t Reg)
{
HAL_StatusTypeDef status = HAL_OK;
uint8_t value = 0;
status = HAL_I2C_Mem_Read(&hi2c1, 0xEF, Reg, I2C_MEMADD_SIZE_8BIT, &value, 1, 100);
/* 检测I2C通信状态 */
if(status != HAL_OK)
{
/* 调用I2C通信错误处理函数 */
}
return value;
}
//从BMP180读一个16位的数据
short BMP_ReadTwoByte(uint8_t Reg)
{
char hd,ld;
short value;
hd=BMP_ReadOneByte(Reg);
ld=BMP_ReadOneByte(Reg+1);
value=(hd<<8)|ld;
return value;
}
//从BMP180的获取计算参数
void BMP_ReadCalibrationData(void)
{
bmp180.AC1 = BMP_ReadTwoByte(0xAA);
bmp180.AC2 = BMP_ReadTwoByte(0xAC);
bmp180.AC3 = BMP_ReadTwoByte(0xAE);
bmp180.AC4 = BMP_ReadTwoByte(0xB0);
bmp180.AC5 = BMP_ReadTwoByte(0xB2);
bmp180.AC6 = BMP_ReadTwoByte(0xB4);
bmp180.B1 = BMP_ReadTwoByte(0xB6);
bmp180.B2 = BMP_ReadTwoByte(0xB8);
bmp180.MB = BMP_ReadTwoByte(0xBA);
bmp180.MC = BMP_ReadTwoByte(0xBC);
bmp180.MD = BMP_ReadTwoByte(0xBE);
}
//从BMP180读取未修正的温度
long BMP_Read_UT(void)
{
long temp = 0;
BMP_WriteOneByte(0xF4,0x2E);
HAL_Delay(5);
temp = (long)BMP_ReadTwoByte(0xF6);
return temp;
}
//从BMP180读取未修正的大气压
long BMP_Read_UP(void)
{
long pressure = 0;
BMP_WriteOneByte(0xF4,0x34);
HAL_Delay(5);
pressure = (long)BMP_ReadTwoByte(0xF6);
//pressure = pressure + BMP_ReadOneByte(0xf8);
pressure &= 0x0000FFFF;
return pressure;
}
//用获取的参数对温度和大气压进行修正,并计算海拔
void BMP_UncompemstatedToTrue(void)
{
BMP_ReadCalibrationData();
bmp180.UT = BMP_Read_UT();//第一次读取错误
bmp180.UT = BMP_Read_UT();//进行第二次读取修正参数
bmp180.UP = BMP_Read_UP();
bmp180.X1 = ((bmp180.UT - bmp180.AC6) * bmp180.AC5) >> 15;
bmp180.X2 = (((long)bmp180.MC) << 11) / (bmp180.X1 + bmp180.MD);
bmp180.B5 = bmp180.X1 + bmp180.X2;
bmp180.Temp = (bmp180.B5 + 8) >> 4;
bmp180.B6 = bmp180.B5 - 4000;
bmp180.X1 = ((long)bmp180.B2 * (bmp180.B6 * bmp180.B6 >> 12)) >> 11;
bmp180.X2 = ((long)bmp180.AC2) * bmp180.B6 >> 11;
bmp180.X3 = bmp180.X1 + bmp180.X2;
bmp180.B3 = ((((long)bmp180.AC1) * 4 + bmp180.X3) + 2) /4;
bmp180.X1 = ((long)bmp180.AC3) * bmp180.B6 >> 13;
bmp180.X2 = (((long)bmp180.B1) *(bmp180.B6*bmp180.B6 >> 12)) >>16;
bmp180.X3 = ((bmp180.X1 + bmp180.X2) + 2) >> 2;
bmp180.B4 = ((long)bmp180.AC4) * (unsigned long)(bmp180.X3 + 32768) >> 15;
bmp180.B7 = ((unsigned long)bmp180.UP - bmp180.B3) * 50000;
if(bmp180.B7 < 0x80000000)
{
bmp180.p = (bmp180.B7 * 2) / bmp180.B4;
}
else
{
bmp180.p = (bmp180.B7 / bmp180.B4) * 2;
}
bmp180.X1 = (bmp180.p >> 8) * (bmp180.p >>8);
bmp180.X1 = (((long)bmp180.X1) * 3038) >> 16;
bmp180.X2 = (-7357 * bmp180.p) >> 16;
bmp180.p = bmp180.p + ((bmp180.X1 + bmp180.X2 + 3791) >> 4);
bmp180.altitude = 44330 * (1-pow(((bmp180.p) / 101325.0),(1.0/5.255)));
}bmp180.h
#include "main.h"
#include "math.h"
extern I2C_HandleTypeDef hi2c1; //cube MX生成的一个资源句柄
typedef struct __BMP180
{
short AC1;
short AC2;
short AC3;
unsigned short AC4;
unsigned short AC5;
unsigned short AC6;
short B1;
short B2;
short MB;
short MC;
short MD;
long UT;
long UP;
long X1;
long X2;
long X3;
long B3;
unsigned long B4;
long B5;
long B6;
long B7;
long p;
long Temp;
float altitude;
}_bmp180;
extern _bmp180 bmp180;
uint8_t BMP_ReadOneByte(uint8_t ReadAddr);
void BMP_WriteOneByte(uint8_t WriteAddr,uint8_t DataToWrite);
short BMP_ReadTwoByte(uint8_t ReadAddr);
void BMP_ReadCalibrationData(void);
long BMP_Read_UT(void);
long BMP_Read_UP(void);
void BMP_UncompemstatedToTrue(void);使用方法:
循环调用BMP_UncompemstatedToTrue();
气压保存在bmp180.p
海拔保存在bmp180.altitude
