Merge branch 'shihao' into 'dev'

Shihao See merge request !33

Merge branch 'shihao' into 'dev'
Shihao See merge request !33
2e05216e · 时昊 · a6b11402 · 68146ff4 · 2e05216e · 2e05216e
Commit 2e05216e authored Aug 13, 2024 by 时昊
9 changed files
--- a/Firmware/Source/Application/BackLight.c
+++ b/Firmware/Source/Application/BackLight.c
@@ -7,6 +7,16 @@
 #define BACK_LIGHT_Val_4 700
 #define BACK_LIGHT_Val_5 900

+#define LIGHT_DATA_TIME 10u /*这里填写多长时间采集一个数据，单位ms*/
+#define LIGHT_DATA_NUM 20u  /*燃油电阻采集数据总数 最大255*/
+#define LIGHT_CAL_START 5u  /*数据排序后取中间部分计算平均：起始*/
+#define LIGHT_CAL_END 15u   /*数据排序后取中间部分计算平均：结束*/
+Light_uint8_t LightADCompleteFlg = 0u;
+Light_uint16_t LightR = 0u;
+Light_uint16_t LightR_Status = 0;
+Light_uint16_t LightR_Status_Count = 0u;
+Light_uint16_t NtcDataCount;
+Light_uint16_t NtcData[LIGHT_DATA_NUM];
 typedef struct
 {
    Light_uint16_t Temperature; /* 温度 */
@@ -47,6 +57,96 @@ _st_BacklightLevel BacklightLevelTable[BacklightLevel_Max] =

 };

+void Data_Light_Res_service(Light_uint8_t deltaTime)//获取光感阻值，并做平均
+{
+    uint16_t LightRes = 0;
+    uint8_t i, j;
+    uint32_t temp32;
+    static uint16_t timeCount = 0;
+
+    if (timeCount >= LIGHT_DATA_TIME)
+    {
+        timeCount = 0;
+        if (NtcDataCount < LIGHT_DATA_NUM)
+        {
+            /*获取光敏电阻*/
+            LightRes = ADC_Read_Signal(ADC_CH_LIGHT_SENSITIVE); // ADC_Read_Signal(ADC_CH_FUEL1);
+
+            /*四舍五入*/
+            if (LightRes < 32000)
+            {
+                if (LightRes % 10 >= 5)
+                {
+                    LightRes += 5;
+                }
+            }
+            else
+            {
+                LightRes = 32000;
+            }
+            /*由小到大插入数据*/
+            for (i = 0; i < NtcDataCount; i++)
+            {
+                if (LightRes < NtcData[i])
+                {
+                    break;
+                }
+            }
+            for (j = NtcDataCount; j > i; j--)
+            {
+                NtcData[j] = NtcData[j - 1];
+            }
+            NtcData[i] = LightRes;
+            NtcDataCount++;
+        }
+        else
+        {
+            /*一组数据采集完毕，取中间部分计算平均值*/
+            temp32 = 0;
+            for (i = LIGHT_CAL_START; i < LIGHT_CAL_END; i++)
+            {
+                temp32 += NtcData[i];
+            }
+            LightR = (uint16_t) (temp32 / (LIGHT_CAL_END - LIGHT_CAL_START));
+            NtcDataCount = 0;
+            LightADCompleteFlg = 1;
+        }
+    }
+    timeCount += deltaTime;
+    
+    if(LightADCompleteFlg)
+    {
+        if(LightR_Status == 0)
+        {
+            if(LightR >20)
+            {
+                LightR_Status_Count++;
+            }
+            else
+            {
+                LightR_Status_Count = 0 ;
+            }            
+        }
+        else
+        {
+            if(LightR <20)
+            {
+                LightR_Status_Count++;
+            }
+            else
+            {
+                LightR_Status_Count = 0 ;
+            }          
+        }
+
+        if(LightR_Status_Count>=150)
+        {
+            LightR_Status_Count = 0;
+            LightR_Status = !LightR_Status;
+        }            
+    }
+}
+


 Light_uint16_t GetBacklightDutyByLevel(Light_uint16_t level)
@@ -409,6 +509,6 @@ void BackLight_Process(void)
    }
    else
    {
-        ;
+        TimerM_PWM_set_duty(TIMERM_COUNTER1, TIMERM_CHB, BACK_LIGHT_Val_4);
    }
 }
--- a/Firmware/Source/Application/GpioUser.c
+++ b/Firmware/Source/Application/GpioUser.c
@@ -20,7 +20,7 @@ void Gpio_Init(_GpioUser_Enum InitMode)
        RTE_GPIO_Config(RTE_GPIO_PORT00_PIN05, GpioOut_Low);  //L_BiasBitSW 里程百位---
        RTE_GPIO_Config(RTE_GPIO_PORT00_PIN06, GpioOut_Low);  //L_BiasBitSW 里程千位---

-        RTE_GPIO_Config(RTE_GPIO_PORT01_PIN00, RTE_GPIO_DIR_OUT);  //表盘背光-PWM
+        RTE_GPIO_Config(RTE_GPIO_PORT01_PIN00, GpioOut_Low);  //表盘背光-PWM
        RTE_GPIO_Config(RTE_GPIO_PORT01_PIN01, GpioOut_Low);      //RXD-ESP-IN-MCU
        RTE_GPIO_Config(RTE_GPIO_PORT01_PIN02, GpioOut_Low);      //TXD-ESP-IN-MCU
        RTE_GPIO_Config(RTE_GPIO_PORT01_PIN03, RTE_GPIO_DIR_IN);     

--- a/Firmware/Source/Component/AMT630H/AMT630H_Datas.c
+++ b/Firmware/Source/Component/AMT630H/AMT630H_Datas.c
@@ -3402,6 +3402,7 @@ static void AMT630H_GUI_Trip(uint32_t Trip, uint8_t Uint)
                SetPagePic(GRAPHICS_PAGE_0, Pic_0861_91_324);/*单位mile*/
            }
        }
+        DisplayNum(GRAPHICS_PAGE_0, &DisplayNumPara, Tripnumber);
    }
    else if(g_u8Display_Mode == ModeNIGHT)
    {
@@ -3457,6 +3458,7 @@ static void AMT630H_GUI_Trip(uint32_t Trip, uint8_t Uint)
                SetPagePic(GRAPHICS_PAGE_0, Pic_0863_91_324);/*单位mile*/
            }
        }
+        DisplayNum(GRAPHICS_PAGE_0, &DisplayNumPara, Tripnumber);
    }
 }


--- a/Firmware/Source/Component/Analog/Analog_Signals.c
+++ b/Firmware/Source/Component/Analog/Analog_Signals.c
@@ -74,7 +74,7 @@ ADC_Data_st_t     stADCData[ADC_SIGNAL_CH_NUMBER];

 const uint8_t __attribute__((aligned(4))) u8ADCChList[ADC_CONV_CH_NUMBER] =
 {
-     2U,  3U,  7U,  5U,  6U, 
+     2U,  3U,  7U,  5U,  6U, 4U, 12U,
 };

 const __attribute__((aligned(4))) ADC_Ch_Cfg_st_t stADCChCfg[ADC_SIGNAL_CH_NUMBER] =
@@ -84,6 +84,9 @@ const __attribute__((aligned(4))) ADC_Ch_Cfg_st_t stADCChCfg[ADC_SIGNAL_CH_NUMBE
    {  2U,   0U,   0U,     0U,     0U,     1U,  ADC_Voltage_Calc_Circuit101,},
    {  3U,   2U,   0U,     2U,     0U,     1U,      ADC_Res_Calc_Circuit101,},
    {  4U,   2U,   0U,     2U,     0U,     1U,      ADC_Res_Calc_Circuit101,},
+    {  5U,   3U,   0U,  5000U,     0U,    10U,      ADC_Res_Calc_Circuit201,},
+    {  6U,   2U,   0U,     2U,     0U,     1U,      ADC_Res_Calc_Circuit101,},    
+
 };

 const __attribute__((aligned(4))) ADC_Res_List_st_t stADCResList[ADC_SIGNAL_CH_NUMBER] =
@@ -93,6 +96,8 @@ const __attribute__((aligned(4))) ADC_Res_List_st_t stADCResList[ADC_SIGNAL_CH_N
    {          0U,         0U,         0U,         0U,},
    {          0U,         0U,       500U,       300U,},
    {          0U,         0U,       500U,         0U,},
+    {      47000U,         0U,    100000U,         0U,},
+     {          0U,         0U,      500U,         0U,},
 };

 /* Private function prototypes ----------------------------------------------*/

--- a/Firmware/Source/Component/Analog/Analog_Signals.h
+++ b/Firmware/Source/Component/Analog/Analog_Signals.h
@@ -33,11 +33,13 @@ enum ADCChName
    ADC_CH_FUEL_VREF,
    ADC_CH_FUEL1,
    ADC_CH_COOLANT_TEMP1_R,
+    ADC_CH_NTC_TEMP,
+    ADC_CH_LIGHT_SENSITIVE,
 };

 /* Exported macro ------------------------------------------------------------*/
-#define   ADC_TOTAL_CH_NUMBER               (5U)
-#define   ADC_SIGNAL_CH_NUMBER              (5U)
+#define   ADC_TOTAL_CH_NUMBER               (7U)
+#define   ADC_SIGNAL_CH_NUMBER              (7U)
 #define   ADC_REF_VOLTAGE                   u16ADCRefVoltage

 /* Exported variables --------------------------------------------------------*/

--- a/Firmware/Source/Component/Mileage/Services_Mileage_User.c
+++ b/Firmware/Source/Component/Mileage/Services_Mileage_User.c
@@ -75,7 +75,7 @@ void Data_User_Mileage_KL30Init(void)
    {
        ODOInit.Offset = TempBuf[2];
    }
-    ODOInit.MaxValue = 16103058;
+    ODOInit.MaxValue = 9999999;
    Data_ODO_KL30_Init(DataODOBuf, &ODOInit, Func.EEPromWrite_Cbk);

    (void)Data_User_EEPROM_Read(EM_TRIP_BLOCK, TempBuf + 3, 8);
@@ -194,18 +194,18 @@ void Services_Mileage_Callback(void)
 uint32_t Get_ODO_Value(void)
 {
    uint32_t ODO = 0;
-    // if (Get_Dis_Unit() == 0) /* 公制 */
-    // {
-    //     ODO = Data_ODO_Read();
-    // }
-    // else if (Get_Dis_Unit() == 1) /* 英制 */
-    // {
-    //     ODO = Data_Km_To_Mile(Data_ODO_Read());
-    // }
-    // else /* 无效值，按照公里处理，理论上不会执行到这 */
-    // {
-    //     ODO = Data_ODO_Read();
-    // }
+    if (Get_Dis_Unit() == 0) /* 公制 */
+    {
+        ODO = Data_ODO_Read();
+    }
+    else if (Get_Dis_Unit() == 1) /* 英制 */
+    {
+        ODO = Data_Km_To_Mile(Data_ODO_Read());
+    }
+    else /* 无效值，按照公里处理，理论上不会执行到这 */
+    {
+        ODO = Data_ODO_Read();
+    }
    return ODO;
 }

@@ -216,18 +216,18 @@ uint32_t Get_ODO_Value(void)
 uint32_t Get_Trip_Value(void)
 {
    uint32_t Trip = 0;
-    // if (Get_Dis_Unit() == 0) /* 公制 */
-    // {
-    //     Trip = Data_Read_Trip(EM_TRIP_A);
-    // }
-    // else if (Get_Dis_Unit() == 1) /* 英制 */
-    // {
-    //     Trip = Data_Km_To_Mile(Data_Read_Trip(EM_TRIP_A));
-    // }
-    // else /* 无效值，按照公里处理，理论上不会执行到这 */
-    // {
-    //     Trip = Data_Read_Trip(EM_TRIP_A);
-    // }
+    if (Get_Dis_Unit() == 0) /* 公制 */
+    {
+        Trip = Data_Read_Trip(EM_TRIP_A);
+    }
+    else if (Get_Dis_Unit() == 1) /* 英制 */
+    {
+        Trip = Data_Km_To_Mile(Data_Read_Trip(EM_TRIP_A));
+    }
+    else /* 无效值，按照公里处理，理论上不会执行到这 */
+    {
+        Trip = Data_Read_Trip(EM_TRIP_A);
+    }
    return Trip;
 }

@@ -237,13 +237,13 @@ uint32_t Get_Trip_Value(void)
 */
 void Trip_Clear_Km_Service(void)
 {
-    // if (Get_Dis_Unit() == 0) /* 公制 */
-    // {
-    //     if (Data_Read_Trip(EM_TRIP_A) > 9999) /* 当前单位在KM时，里程大于999.9KM进行清零 */
-    //     {
-    //         Data_Clear_Trip_All();
-    //     }
-    // }
+    if (Get_Dis_Unit() == 0) /* 公制 */
+    {
+        if (Data_Read_Trip(EM_TRIP_A) > 9999) /* 当前单位在KM时，里程大于999.9KM进行清零 */
+        {
+            Data_Clear_Trip_All();
+        }
+    }
 }



--- a/Firmware/Source/Component/PowerManagement/PowerManag_user.c
+++ b/Firmware/Source/Component/PowerManagement/PowerManag_user.c
@@ -56,7 +56,7 @@ static void Power_KL30_Init(void)
    Fuel_KL30_Init();
    Amt630hInit();
    Telltales_Init();
-    TimerM_PWM_counter_Output_Init(TIMERM_COUNTER1, 400, 64000000);
+    TimerM_PWM_counter_Output_Init(TIMERM_COUNTER1, 20000, 64000000);
    TimerM_PWM_CH_Output_init(TIMERM_COUNTER1, TIMERM_CHB, ActiveLevel_High);
    g_stRTCInformation.u8RTCSecond = 0;
 	g_stRTCInformation.u8RTCMinute = 0;
@@ -68,7 +68,7 @@ static void Power_KL30_Init(void)
    Menu_User_Init();
    Can_Init();
    Protocol_KL30_Wakeup_Init();
-    TimerM_PWM_set_duty(TIMERM_COUNTER1, TIMERM_CHB, 100);
+    TimerM_PWM_set_duty(TIMERM_COUNTER1, TIMERM_CHB, 500);
    RTE_DEEPSLEEP_GPIO_Interrupt_Enable(KL15_AD_IN, Trigger_Rising);
    FaultCode_Init();
 }
@@ -88,7 +88,7 @@ static void Power_Wakeup_Init(void)
    Line_In_KL15_ON_Init();
    Fuel_KL30_Init();
    Amt630hInit();
-    TimerM_PWM_counter_Output_Init(TIMERM_COUNTER1, 400, 64000000);
+    TimerM_PWM_counter_Output_Init(TIMERM_COUNTER1, 20000, 64000000);
    TimerM_PWM_CH_Output_init(TIMERM_COUNTER1, TIMERM_CHB, ActiveLevel_High);
    Telltales_Init();
    Key_KL30_Init_EXample();    
@@ -120,13 +120,13 @@ static void Power_IG_ON_Init(void)
   Line_In_KL15_ON_Init();
   Telltales_KL15_Init();
   Fuel_KL15_Init();
-   RTE_GPIO_Set_Level(Blacklight_PWM, 1);
+   //RTE_GPIO_Set_Level(Blacklight_PWM, 1);
   FaultCode_Init();
 }

 static void Power_Sleep_Init(void)
 {
-    TimerM_PWM_counter_Output_Init(TIMERM_COUNTER1, 400, 0);
+    TimerM_PWM_counter_Output_Init(TIMERM_COUNTER1, 20000, 0);
 	rte_can_deinit(CAN_CH_0);
 	TMM0_Stop();
 	TMM1_Stop();

--- a/Firmware/Source/Device/Cmsemicon/BAT32A279/RTE/TrmerM/TrmerM.c
+++ b/Firmware/Source/Device/Cmsemicon/BAT32A279/RTE/TrmerM/TrmerM.c
 /*
 * TrmerM.c
 *
- *  Created on: 2024�?2�?21�?
+ *  Created on: 2024年2月21日
 */
 #include <stdint.h>
 // #include "gpio.h"
@@ -25,21 +25,21 @@ typedef struct
 // /*占空比精度千分之一*/
 // extern void TimerB_PWM_Channel_Duty_Set(TIMERB_Channel_en_t enTimerBChannel, uint16_t u16Duty);
 // extern void TimerB_PWM_Channel_Start(TIMERB_Channel_en_t enTimerBChannel);
-// /*调用该函数后，仅重新调用开始函数功能即可正常使�?*/
+// /*调用该函数后，仅重新调用开始函数功能即可正常使用*/
 // extern void TimerB_PWM_Channel_Stop(TIMERB_Channel_en_t enTimerBChannel);
-// /*仅休眠时可调用，调用该函数后需要重新初始化相关通道才可以正常使用�?*/
+// /*仅休眠时可调用，调用该函数后需要重新初始化相关通道才可以正常使用。*/
 // extern void TimerB_PWM_Channel_Sleep(TIMERB_Channel_en_t enTimerBChannel);


 TMM_InitTypeDef TIMM_InitStructure[2] = {0};
-static uint32_t cycle_pulse[2];              //一个周期的时钟�?  //频率
-static uint32_t high_level_Pulse[2][3];      //高电平时钟数      //占空�?
+static uint32_t cycle_pulse[2];              //一个周期的时钟数  //频率
+static uint32_t high_level_Pulse[2][3];      //高电平时钟数      //占空比
 static uint32_t pwm_duty[2][3];

 /**
 * @brief 设置TimerM的定时器x的模式为比较输出
 * 
- * @param counter 定时�?
+ * @param counter 定时器
 * @param freq 比较输出频率
 * @return uint8_t 返回0成功，非0失败
 */
@@ -48,32 +48,20 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
    if (counter == TIMERM_COUNTER0)
    {
        TIMM_InitStructure[counter].TMM_Select  = TMM0;
-									
-		TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
-        TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
-        TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
-        TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_NONE; ///compare match interrupt enable A (IMIEA)
-
    }
    else if (counter == TIMERM_COUNTER1)
    {
        TIMM_InitStructure[counter].TMM_Select  = TMM1;
-			
-		TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_A|TMM_Channel_B;//|TMM_Channel_C|TMM_Channel_D;
-        TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
-        TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
-        TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_NONE; ///compare match interrupt enable A (IMIEA)
-
    }
    else
    {
        return 1;
    }
    
-//    TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
-//    TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
-//    TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
-//    TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
+    TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
+    TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
+    TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
+    TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_NONE; ///compare match interrupt enable A (IMIEA)
 	
    if (freq > 2000)
    {
@@ -95,7 +83,7 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
        return 1;
    }
    
-    TIMM_InitStructure[counter].TMM_CHA_Pulse                   = cycle_pulse[counter] & 0x0FFFF;//这里需要计算，调试�? period;  //周期设置为period
+    TIMM_InitStructure[counter].TMM_CHA_Pulse                   = cycle_pulse[counter] & 0x0FFFF;//这里需要计算，调试下 period;  //周期设置为period
    
    
    
@@ -115,34 +103,23 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t

 //uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t freq)//, uint32_t PWM_Clock //SystemCoreClock
 //{
-//    SystemCoreClock = 64000000UL;
-//	
 //    if (counter == TIMERM_COUNTER0)
 //    {
 //        TIMM_InitStructure[counter].TMM_Select  = TMM0;
-//			
-//			    TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
-//    TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
-//    TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
-//    TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
 //    }
 //    else if (counter == TIMERM_COUNTER1)
 //    {
 //        TIMM_InitStructure[counter].TMM_Select  = TMM1;
-//			    TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_B;
-//    TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
-//    TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
-//    TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
 //    }
 //    else
 //    {
 //        return 1;
 //    }
 //    
-////    TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
-////    TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
-////    TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
-////    TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
+//    TIMM_InitStructure[counter].TMM_Channel	                    = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
+//    TIMM_InitStructure[counter].TMM_Mode		                = TMM_Mode_PWM;  
+//    TIMM_InitStructure[counter].TMM_CounterClear                = TM_Clear_Match_TMGRA;  //when TM is matched with TMGRA, TM0 is cleared
+//    TIMM_InitStructure[counter].TMM_Intp                        = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
 //	
 //    if (freq > 2000)
 //    {
@@ -164,7 +141,7 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
 //        return 1;
 //    }
 //    
-//    TIMM_InitStructure[counter].TMM_CHA_Pulse                   = cycle_pulse[counter] & 0x0FFFF;//这里需要计算，调试�? period;  //周期设置为period
+//    TIMM_InitStructure[counter].TMM_CHA_Pulse                   = cycle_pulse[counter] & 0x0FFFF;//这里需要计算，调试下 period;  //周期设置为period
 //    
 //    
 //    
@@ -187,9 +164,9 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
 /**
 * @brief 设置timerM定时器x通道x的占空比
 * 
- * @param counter 定时�?
+ * @param counter 定时器
 * @param ch 通道
- * @param duty 占空�? xxxx/1000 千分�?
+ * @param duty 占空比 xxxx/1000 千分之
 * @param ActiveLevel 0负占空比 1正占空比
 * @return uint8_t 返回0成功，非0失败
 */
@@ -201,7 +178,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
    switch (ch)
    {
    case TIMERM_CHB:
-        TIMM_InitStructure[counter].TMM_CHB_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF;  	//TM计数达到TMGRB. 占空�?:duty2/period
+        TIMM_InitStructure[counter].TMM_CHB_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF;  	//TM计数达到TMGRB. 占空比:duty2/period
        TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMInitLevel = TMM_PWMInitLevel_High;
        TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMActiveLevel = ActiveLevel;
        if (counter == TIMERM_COUNTER0)
@@ -217,7 +194,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
        break;
    
    case TIMERM_CHC:
-        TIMM_InitStructure[counter].TMM_CHC_Pulse =  ((cycle_pulse[counter]) ) & 0x0FFFF;  	//TM计数达到TMGRC. 占空�?:duty2/period
+        TIMM_InitStructure[counter].TMM_CHC_Pulse =  ((cycle_pulse[counter]) ) & 0x0FFFF;  	//TM计数达到TMGRC. 占空比:duty2/period
        TIMM_InitStructure[counter].TMM_PWM.TMM_CHC.TMM_PWMInitLevel = TMM_PWMInitLevel_High;
        TIMM_InitStructure[counter].TMM_PWM.TMM_CHC.TMM_PWMActiveLevel = ActiveLevel;
        if (counter == TIMERM_COUNTER0)
@@ -232,7 +209,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
        break;
    
    case TIMERM_CHD:
-        TIMM_InitStructure[counter].TMM_CHD_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF;  	//TM计数达到TMGRD. 占空�?:duty3/period
+        TIMM_InitStructure[counter].TMM_CHD_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF;  	//TM计数达到TMGRD. 占空比:duty3/period
        TIMM_InitStructure[counter].TMM_PWM.TMM_CHD.TMM_PWMInitLevel = TMM_PWMInitLevel_High;//TMM_PWMInitLevel_High;//
        TIMM_InitStructure[counter].TMM_PWM.TMM_CHD.TMM_PWMActiveLevel = ActiveLevel;//TMM_PWMActiveLevel_Low;//TMM_PWMActiveLevel_High;//
        if (counter == TIMERM_COUNTER0)
@@ -250,13 +227,15 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
        return 1;
        //break;
    }
+	TMM_Init(&TIMM_InitStructure[counter]);
 		
 	GPIO_InitStruct.GPIO_Mode	= GPIO_Mode_OUT;	
 	GPIO_InitStruct.GPIO_Level  = GPIO_Level_LOW;	
 	GPIO_InitStruct.GPIO_OType	= GPIO_OType_PP;
 	GPIO_InitStruct.GPIO_PuPd	= GPIO_PuPd_NOPULL;	
+	GPIO_Init(GPIO_PORT1,&GPIO_InitStruct);
+		
 	
-	TMM_Init(&TIMM_InitStructure[counter]);
    if (counter == TIMERM_COUNTER0)
    {
        TMM0_Start(ENABLE);
@@ -270,7 +249,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
        return 1;
    }
    
-	GPIO_Init(GPIO_PORT1,&GPIO_InitStruct);
+	

    high_level_Pulse[counter][ch] = ((cycle_pulse[counter]) ) & 0x0FFFF;
    pwm_duty[counter][ch] = 1000;
@@ -287,7 +266,7 @@ extern void TMM1_Set_Counter(uint8_t ch,uint16_t value);
 * 
 * @param counter 定时器x
 * @param ch 通道x
- * @param duty 占空�? 千分之一
+ * @param duty 占空比 千分之一
 * @return uint8_t 返回0成功，非0失败
 */
 uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_en_t ch, uint16_t duty )
@@ -325,11 +304,11 @@ uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_
 * 
 * @param counter 定时器x
 * @param freq PWM频率
- * @return uint8_t 0成功 �?0失败
+ * @return uint8_t 0成功 非0失败
 * 
- * @note 频率范围有两种，50~2000 2001~最大，如果初始话的频率和目标频率在一个区间可以使用TimerM_PWM_set_freq2函数来优雅的切换频率�?
+ * @note 频率范围有两种，50~2000 2001~最大，如果初始话的频率和目标频率在一个区间可以使用TimerM_PWM_set_freq2函数来优雅的切换频率，
 *                                          如果不在一个频率区间就需要使用TimerM_PWM_set_freq来不优雅的切换频率，
- *                                           如果看不懂注释也使用TimerM_PWM_set_freq来切换频率�?
+ *                                           如果看不懂注释也使用TimerM_PWM_set_freq来切换频率。
 */
 uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
 {

--- a/Firmware/Source/System/Sys_Task_List.c
+++ b/Firmware/Source/System/Sys_Task_List.c
@@ -40,6 +40,7 @@ void Sys_10ms_Tasks(void)
    Key_TimeOut_Service();
    Fuel_R_Cal(10u);
    Coolant_R_Cal(10u);
+    Data_Light_Res_service(10);
 }

 void Sys_20ms_Tasks(void)