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#include "Data_Coolant.h"
#include "Components.h"
#define Coolant_DATA_TIME 25u /*这里填写多长时间采集一个数据,单位ms*/
#define Coolant_DATA_NUM 20u /*燃油电阻采集数据总数 最大255*/
#define Coolant_CAL_START 5u /*数据排序后取中间部分计算平均:起始*/
#define Coolant_CAL_END 15u /*数据排序后取中间部分计算平均:结束*/
#define RETURN_DIFFERENCE 25u /*判断上升或下降的回差,精度0.1*/
#define Coolant_SEG_UP 0u
#define Coolant_SEG_DOWN 1u
uint16_t g_u16CoolantData[Coolant_DATA_NUM];
uint8_t g_u8CoolantDataCount = 0u;
uint16_t CoolantR = 0u; /*滤波后的燃油电阻,精度0.1*/
static uint16_t CoolantRBak = 0;
uint8_t g_u8DesCoolantSetp = 0u;
uint8_t g_u8CurCoolantSetp = 0u;
uint8_t g_u8CoolantInitFlag = 0u;
uint8_t g_u8CoolantStateInitFlag = 0u;
uint8_t g_u8CoolantDir = Coolant_SEG_UP;
CoolantSensorSts_t CoolantSensorState = CoolantSensorNormal;
uint16_t g_u16CoolantSensorNormalTime = 0u;
uint16_t g_u16CoolantSensorShortTime = 0u;
uint16_t g_u16CoolantSensorOpenTime = 0u;
uint8_t g_u8CoolantADCompleteFlg = 0u;
void Coolant_KL30_Init(void)
{
g_u8DesCoolantSetp = 0u;
g_u8CurCoolantSetp = 0u;
g_u8CoolantInitFlag = 1u;
g_u8CoolantStateInitFlag = 1u;
g_u8CoolantDir = Coolant_SEG_UP;
CoolantSensorState = CoolantSensorNormal;
g_u16CoolantSensorNormalTime = 0u;
g_u16CoolantSensorShortTime = 0u;
g_u16CoolantSensorOpenTime = 0u;
g_u8CoolantADCompleteFlg = 0u;
}
void Coolant_KL15_Init(void)
{
g_u8DesCoolantSetp = 0u;
g_u8CurCoolantSetp = 0u;
g_u8CoolantInitFlag = 1u;
g_u8CoolantStateInitFlag = 1u;
g_u8CoolantDir = Coolant_SEG_UP;
CoolantSensorState = CoolantSensorNormal;
g_u16CoolantSensorNormalTime = 0u;
g_u16CoolantSensorShortTime = 0u;
g_u16CoolantSensorOpenTime = 0u;
g_u8CoolantADCompleteFlg = 0u;
}
void Coolant_R_Cal(uint8_t deltaTime)
{
uint16_t CoolantRes = 0;
uint8_t i, j;
uint32_t temp32;
static uint16_t timeCount = 0;
if (g_u8CoolantStateInitFlag)
{
CoolantR = ADC_Read_Signal(ADC_CH_COOLANT_TEMP1_R);
}
if (timeCount >= Coolant_DATA_TIME)
{
timeCount = 0;
if (g_u8CoolantDataCount < Coolant_DATA_NUM)
{
/*获取燃油电阻*/
CoolantRes = ADC_Read_Signal(ADC_CH_COOLANT_TEMP1_R);
/*四舍五入*/
if (CoolantRes < 3100)
{
if (CoolantRes % 10 >= 5)
{
CoolantRes += 5;
}
}
else
{
CoolantRes = 0xFFFF;
}
/*由小到大插入数据*/
for (i = 0; i < g_u8CoolantDataCount; i++)
{
if (CoolantRes < g_u16CoolantData[i])
{
break;
}
}
for (j = g_u8CoolantDataCount; j > i; j--)
{
g_u16CoolantData[j] = g_u16CoolantData[j - 1];
}
g_u16CoolantData[i] = CoolantRes;
g_u8CoolantDataCount++;
}
else
{
/*一组数据采集完毕,取中间部分计算平均值*/
temp32 = 0;
for (i = Coolant_CAL_START; i < Coolant_CAL_END; i++)
{
temp32 += g_u16CoolantData[i];
}
CoolantR = temp32 / (Coolant_CAL_END - Coolant_CAL_START);
g_u8CoolantDataCount = 0;
g_u8CoolantADCompleteFlg = 1;
}
}
timeCount += deltaTime;
}
void Coolant_State_Check(uint8_t deltaTime)
{
// if (CoolantR < 30)
// { /*短路3*/
// g_u16CoolantSensorOpenTime = 0;
// g_u16CoolantSensorNormalTime = 0;
// if ((g_u16CoolantSensorShortTime > 3000) || ((g_u8CoolantStateInitFlag) && (g_u16CoolantSensorShortTime > 3000)))
// {
// CoolantSensorState = CoolantSensorShortCircuit;
// g_u8DesCoolantSetp = 0;
// g_u8CurCoolantSetp = 6;
// g_u8CoolantStateInitFlag = 0;
// g_u8CoolantInitFlag = 1;
// g_u8CoolantDir = Coolant_SEG_UP;
// }
// else
// {
// g_u16CoolantSensorShortTime += deltaTime;
// }
// }
if (CoolantR > 3000)
{ /*开路 300*/
g_u16CoolantSensorShortTime = 0;
g_u16CoolantSensorNormalTime = 0;
if ((g_u16CoolantSensorOpenTime > 3000) || ((g_u8CoolantStateInitFlag) && (g_u16CoolantSensorOpenTime > 3000)))
{
CoolantSensorState = CoolantSensorOpenCircuit;
g_u8DesCoolantSetp = 0;
g_u8CurCoolantSetp = 0;
g_u8CoolantStateInitFlag = 0;
g_u8CoolantInitFlag = 1;
g_u8CoolantDir = Coolant_SEG_UP;
}
else
{
g_u16CoolantSensorOpenTime += deltaTime;
}
}
else
{
g_u16CoolantSensorShortTime = 0;
g_u16CoolantSensorOpenTime = 0;
if (g_u16CoolantSensorNormalTime > 3000)
{
CoolantSensorState = CoolantSensorNormal;
g_u8CoolantStateInitFlag = 0;
}
else
{
g_u16CoolantSensorNormalTime += deltaTime;
}
}
}
void Coolant_Gauges_Cal(uint8_t deltaTime)
{
static uint16_t time = 0;
if ((CoolantSensorState == CoolantSensorNormal) && (CoolantR <= 3000)) // && (CoolantR >= 30)
{
if (CoolantR < 180)
{
g_u8DesCoolantSetp = 1;
}
else if(CoolantR > 220)
{
g_u8DesCoolantSetp = 0;
}
}
}
void Coolant_Cal_Sevice(uint8_t deltaTime)
{
/*检测燃油电阻状态*/
Coolant_State_Check(deltaTime);
/*显示燃油格*/
Coolant_Gauges_Cal(deltaTime);
}
uint8_t Get_CurCoolantSetpState(void)
{
return g_u8DesCoolantSetp;
}
CoolantSensorSts_t Get_Coolant_Sensor_State(void)
{
return CoolantSensorState;
}