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H
haoJin750TFT
Commit ddb97726 authored by 张金硕's avatar 张金硕
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Merge branch 'jinshuo' into 'dev' 

Jinshuo

See merge request !79
parents ce9abc76 9b31a9e8
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Showing with 306 additions and 224 deletions
Firmware/Source/Application/BlueTooth.c
View file @ ddb97726
......@@ -7,6 +7,7 @@ uint8_t GetBlueToothVaild = 0;
uint8_t GetPhoneBookVaild = 0;
uint8_t TextInit = 0;
uint8_t SetUUIDTimes = 0;
uint16_t LastPhoneBookTotalCount = 0;
_PICID_Struct PicObj;
_QRCODE_RECT QRCode_Rect;
const uint8_t HJBlueToothName[9]= {"HJ750"};
......@@ -131,6 +132,9 @@ uint8_t PhoneNumber[40];
uint8_t LastPhoneNumber[20];
uint8_t LastBlueToothPhoneName[100];
uint8_t CurBlueToothPhoneName[100];
uint8_t BlueToothName[40];
uint8_t LastBlueToothName[20];
uint8_t PhoneNumberTotal[20];
void TextService(void)
{
......@@ -141,6 +145,9 @@ void TextService(void)
memset(LastPhoneNumber, 0, sizeof(LastPhoneNumber));
memset(LastBlueToothPhoneName, 0, sizeof(LastBlueToothPhoneName));
memset(CurBlueToothPhoneName, 0, sizeof(CurBlueToothPhoneName));
memset(BlueToothName, 0, sizeof(BlueToothName));
memset(LastBlueToothName, 0, sizeof(LastBlueToothName));
memset(PhoneNumberTotal, 0, sizeof(PhoneNumberTotal));
}
if (BlueToothPhoneData.BlueToothSignalSate == BlueTooth_Connection)
{
......@@ -167,5 +174,37 @@ void TextService(void)
}
}
}
if(Menu_Get_Current_Cursor_Information() == MENU_ITEM_BLUETOOTH_CONNECT)
{
if (memcmp(LastBlueToothName, BlueToothPhoneData.BlueToothName, sizeof(LastBlueToothName)) != 0)
{
for (uint8_t i = 0; i < sizeof(BlueToothPhoneData.BlueToothName); i++)
{
BlueToothName[i * 2] = BlueToothPhoneData.BlueToothName[i];
BlueToothName[(i * 2) + 1] = 0X00;
}
memcpy(LastBlueToothName, BlueToothPhoneData.BlueToothName, sizeof(LastBlueToothName));
TextPara[TEXT_NUM_BLUETOOTH_NAME].Vaild = 0X01;
}
}
if (LastPhoneBookTotalCount != BlueToothPhoneData.PhoneBookTotalCount)
{
uint8_t TempNumberCnts = 0;
if (BlueToothPhoneData.PhoneBookTotalCount > 100)
{
PhoneNumberTotal[TempNumberCnts++] = (BlueToothPhoneData.PhoneBookTotalCount / 100) + 0x30;
PhoneNumberTotal[TempNumberCnts++] = 0x00;
}
if (BlueToothPhoneData.PhoneBookTotalCount > 10)
{
PhoneNumberTotal[TempNumberCnts++] = (BlueToothPhoneData.PhoneBookTotalCount / 10 % 10) + 0x30;
PhoneNumberTotal[TempNumberCnts++] = 0x00;
}
PhoneNumberTotal[TempNumberCnts++] = (BlueToothPhoneData.PhoneBookTotalCount % 100 % 10) + 0x30;
PhoneNumberTotal[TempNumberCnts++] = 0x00;
TextPara[TEXT_NUM_PHONE_NUMBER_TOTAL].Vaild = 0x01;
LastPhoneBookTotalCount = BlueToothPhoneData.PhoneBookTotalCount;
}
}
Firmware/Source/Application/BlueTooth.h
View file @ ddb97726
......@@ -39,6 +39,8 @@ extern _PICID_Struct PicObj;
extern _QRCODE_RECT QRCode_Rect;
extern uint8_t PhoneNumber[40];
extern uint8_t CurBlueToothPhoneName[100];
extern uint8_t BlueToothName[40];
extern uint8_t PhoneNumberTotal[20];
extern TEXT_STRUCT TextPara[];
#endif
\ No newline at end of file
Firmware/Source/Component/Key/Key_user.c
View file @ ddb97726
......@@ -73,7 +73,7 @@ void Key_Operation_Right(Key_Event_en_t enKeyEvent)//确认
case KEY_EVENT_LONG_PRESS_3: //5s
break;
case KEY_EVENT_LONG_PRESS_4: //10s
//TYW_RESET_ODO();
TYW_RESET_ODO();
Get_Into_OTA_Update_Mode();
break;
case KEY_EVENT_OFF_TO_ON:
......@@ -355,7 +355,7 @@ void TYW_RESET_ODO(void)
if((Get_DispVechileSpeed() >= 1500)&&(Get_DispEngineSpeed() >= 12000))
{
ClearODO_Flag = 1;
//Data_Mileage_Clear();
Data_Mileage_Clear();
}
}
}
......@@ -390,7 +390,7 @@ void My_Key_Service(void)
/* 自检时不可操作按键 */
if(g_u8SelfCheck)
{
if(Get_ActualVechileSpeed() == 0)
if((Get_ActualVechileSpeed() == 0) ||((Get_DispVechileSpeed() >= 1990) && (Get_DispEngineSpeed() >= 12000)))
{
Key_Service();
}
......
Firmware/Source/Device/Cmsemicon/BAT32A279/RTE/TrmerM/TrmerM.c
View file @ ddb97726
......@@ -12,11 +12,8 @@
typedef struct
{
TIMERM_PWM_Counter_en_t counter; //定时器选择
}Display_mode_Struct;
TIMERM_PWM_Counter_en_t counter; // 定时器选择
} Display_mode_Struct;
/*-------------------PWM相关-------------------------------------*/
// extern void TimerB_PWM_Init(void);
......@@ -32,9 +29,9 @@ typedef struct
TMM_InitTypeDef TIMM_InitStructure[2] = {0};
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];
static uint32_t cycle_pulse[2] = {0}; //一个周期的时钟数 //频率
static uint32_t high_level_Pulse[2][3] = {0}; //高电平时钟数 //占空比
static uint32_t pwm_duty[2][3] = {0};
/**
* @brief 设置TimerM的定时器x的模式为比较输出
......@@ -43,25 +40,41 @@ static uint32_t pwm_duty[2][3];
* @param freq 比较输出频率
* @return uint8_t 返回0成功,非0失败
*/
uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t freq, uint32_t PWM_Clock)//, uint32_t PWM_Clock //SystemCoreClock
uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t freq, uint32_t PWM_Clock) //, uint32_t PWM_Clock //SystemCoreClock
{
if ((counter < 0) || (counter >= TIMERM_COUNTER_MAX))
{
return 1;
}
else
{
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_NONE; ///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)
{
......@@ -73,7 +86,7 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
// TIMM_InitStructure[counter].TMM_Clk = TMM_FCLK_Div8; // specify the operation clk of tim
// cycle_pulse[counter] = PWM_Clock / 8 / freq;
// }
else if(freq >= 50)
else if (freq >= 50)
{
TIMM_InitStructure[counter].TMM_Clk = TMM_FCLK_Div32; // specify the operation clk of tim
cycle_pulse[counter] = PWM_Clock / 32 / freq;
......@@ -83,9 +96,7 @@ 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,调试下 period; //周期设置为period
TIMM_InitStructure[counter].TMM_CHA_Pulse = (uint16_t)(cycle_pulse[counter] & 0x0FFFF); // 这里需要计算,调试�? period; //周期设置为period
// TMM_Init(&TIMM_InitStructure[counter]);
......@@ -99,27 +110,40 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
// }
return 0;
}
return 1;
}
//uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t freq)//, uint32_t PWM_Clock //SystemCoreClock
// 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)
// {
......@@ -141,7 +165,7 @@ 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�? period; //周期设置为period
//
//
//
......@@ -159,8 +183,6 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
// return 0;
//}
/**
* @brief 设置timerM定时器x通道x的占空比
*
......@@ -170,36 +192,41 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
* @param ActiveLevel 0负占空比 1正占空比
* @return uint8_t 返回0成功,非0失败
*/
uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_en_t ch,TIMERM_PWM_ActiveLevel_en_t ActiveLevel)
uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_en_t ch, TIMERM_PWM_ActiveLevel_en_t ActiveLevel)
{
GPIO_InitTypeDef GPIO_InitStruct;
if ((counter < 0) || (counter >= TIMERM_COUNTER_MAX))
{
return 1;
}
else
{
switch (ch)
{
case TIMERM_CHB:
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_CHB_Pulse = (uint16_t)(cycle_pulse[counter] & 0x0FFFF); // TM计数达到TMGRB. 占空�?:duty2/period
TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMInitLevel = TMM_PWMInitLevel_High;
TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMActiveLevel = ActiveLevel;
TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMActiveLevel = (uint8_t)ActiveLevel;
if (counter == TIMERM_COUNTER0)
{
GPIO_PinAFConfig(GPIO_PORT1,GPIO_Pin_4,GPIO_P14,GROUP_AF_ODEFAULT); //P14 used as TMIOB0 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_4 ;
GPIO_PinAFConfig(GPIO_PORT1, GPIO_Pin_4, GPIO_P14, GROUP_AF_ODEFAULT); // P14 used as TMIOB0 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_4;
}
else if (counter == TIMERM_COUNTER1)
{
GPIO_PinAFConfig(GPIO_PORT1,GPIO_Pin_0,GPIO_P10,GROUP_AF_ODEFAULT); //P14 used as TMIOB1 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_0 ;
GPIO_PinAFConfig(GPIO_PORT1, GPIO_Pin_0, GPIO_P10, GROUP_AF_ODEFAULT); // P14 used as TMIOB1 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_0;
}
break;
case TIMERM_CHC:
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_CHC_Pulse = (uint16_t)(cycle_pulse[counter] & 0x0FFFF); // TM计数达到TMGRC. 占空�?: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)
{
GPIO_PinAFConfig(GPIO_PORT1,GPIO_Pin_6,GPIO_P16,GROUP_AF_ODEFAULT); //P16 used as TMIOC0 output(default function)
GPIO_PinAFConfig(GPIO_PORT1, GPIO_Pin_6, GPIO_P16, GROUP_AF_ODEFAULT); // P16 used as TMIOC0 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_6;
}
else if (counter == TIMERM_COUNTER1)
......@@ -209,13 +236,13 @@ 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;//
TIMM_InitStructure[counter].TMM_CHD_Pulse = (uint16_t)(cycle_pulse[counter] & 0x0FFFF); // TM计数达到TMGRD. 占空�?: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)
{
GPIO_PinAFConfig(GPIO_PORT1,GPIO_Pin_7,GPIO_P17,GROUP_AF_TMIOD0); //P15 used as TMIOD0 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_7 ;
GPIO_PinAFConfig(GPIO_PORT1, GPIO_Pin_7, GPIO_P17, GROUP_AF_TMIOD0); // P15 used as TMIOD0 output(default function)
GPIO_InitStruct.GPIO_Pin = GPIO_Pin_7;
}
else if (counter == TIMERM_COUNTER1)
{
......@@ -225,16 +252,23 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
default:
return 1;
//break;
// 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);
GPIO_Init(GPIO_PORT1, &GPIO_InitStruct);
if ((counter < 0) || (counter >= TIMERM_COUNTER_MAX))
{
return 1;
}
else
{
TMM_Init(&TIMM_InitStructure[counter]);
}
if (counter == TIMERM_COUNTER0)
{
......@@ -251,16 +285,16 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
high_level_Pulse[counter][ch] = ((cycle_pulse[counter]) ) & 0x0FFFF;
high_level_Pulse[counter][ch] = ((cycle_pulse[counter])) & 0x0FFFF;
pwm_duty[counter][ch] = 1000;
return 0;
}
return 1;
}
extern void TMM0_Set_Counter(uint8_t ch,uint16_t value);
extern void TMM1_Set_Counter(uint8_t ch,uint16_t value);
extern void TMM0_Set_Counter(uint8_t ch, uint16_t value);
extern void TMM1_Set_Counter(uint8_t ch, uint16_t value);
/**
* @brief 改变TimerM PWM输出的占空比
*
......@@ -269,8 +303,14 @@ extern void TMM1_Set_Counter(uint8_t ch,uint16_t value);
* @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 )
uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_en_t ch, uint16_t duty)
{
if ((counter < 0) || (counter >= TIMERM_COUNTER_MAX))
{
return 1;
}
else
{
if (duty >= 1000)
{
duty = 0;
......@@ -283,12 +323,12 @@ uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_
if (counter == TIMERM_COUNTER0)
{
high_level_Pulse[counter][ch] = (((cycle_pulse[counter] * duty) / 1000) & 0x0FFFF);
TMM0_Set_Counter(1 << (ch + 1), high_level_Pulse[counter][ch]);
TMM0_Set_Counter(1 << (ch + 1), (uint16_t)(high_level_Pulse[counter][ch] & 0x0FFFF));
}
else if (counter == TIMERM_COUNTER1)
{
high_level_Pulse[counter][ch] = (((cycle_pulse[counter] * duty) / 1000) & 0x0FFFF);
TMM1_Set_Counter(1 << (ch + 1), high_level_Pulse[counter][ch]);
TMM1_Set_Counter(1 << (ch + 1), (uint16_t)(high_level_Pulse[counter][ch] & 0x0FFFF));
}
else
{
......@@ -297,6 +337,8 @@ uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_
pwm_duty[counter][ch] = duty;
return 0;
}
return 1;
}
/**
......@@ -310,9 +352,14 @@ uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_
* 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。
*/
uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq)
{
if (counter < TIMERM_COUNTER_MAX)
if ((counter < 0) || (counter >= TIMERM_COUNTER_MAX))
{
return 1;
}
else
{
if (freq > 2000)
{
......@@ -324,7 +371,7 @@ uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
// TIMM_InitStructure[counter].TMM_Clk = TMM_FCLK_Div8; // specify the operation clk of tim
// cycle_pulse[counter] = SystemCoreClock / 8 / freq;
// }
else if(freq >= 50)
else if (freq >= 50)
{
TIMM_InitStructure[counter].TMM_Clk = TMM_FCLK_Div32; // specify the operation clk of tim
cycle_pulse[counter] = SystemCoreClock / 32 / freq;
......@@ -334,24 +381,20 @@ uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
return 1;
}
}
else
{
return 1;
}
high_level_Pulse[counter][TIMERM_CHB] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHB]) / 1000) & 0x0FFFF);
high_level_Pulse[counter][TIMERM_CHC] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHC]) / 1000) & 0x0FFFF);
high_level_Pulse[counter][TIMERM_CHD] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHD]) / 1000) & 0x0FFFF);
TIMM_InitStructure[counter].TMM_CHB_Pulse = high_level_Pulse[counter][TIMERM_CHB];
TIMM_InitStructure[counter].TMM_CHC_Pulse = high_level_Pulse[counter][TIMERM_CHC];
TIMM_InitStructure[counter].TMM_CHD_Pulse = high_level_Pulse[counter][TIMERM_CHD];
TIMM_InitStructure[counter].TMM_CHB_Pulse = (uint16_t)(high_level_Pulse[counter][TIMERM_CHB] & 0x0FFFF);
TIMM_InitStructure[counter].TMM_CHC_Pulse = (uint16_t)(high_level_Pulse[counter][TIMERM_CHC] & 0x0FFFF);
TIMM_InitStructure[counter].TMM_CHD_Pulse = (uint16_t)(high_level_Pulse[counter][TIMERM_CHD] & 0x0FFFF);
TIMM_InitStructure[counter].TMM_CHA_Pulse = (uint16_t)(cycle_pulse[counter] & 0x0FFFF);
TIMM_InitStructure[counter].TMM_CHA_Pulse = cycle_pulse[counter] & 0x0FFFF;
if ((counter < TIMERM_COUNTER_MAX) && (counter >= TIMERM_COUNTER0))
{
TMM_Init(&TIMM_InitStructure[counter]);
}
if (counter == TIMERM_COUNTER0)
{
......@@ -362,10 +405,11 @@ uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
TMM1_Start(ENABLE);
}
return 0;
}
return 1;
}
uint8_t TimerM_PWM_set_freq2(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
uint8_t TimerM_PWM_set_freq2(TIMERM_PWM_Counter_en_t counter, uint16_t freq)
{
if (counter == TIMERM_COUNTER0)
{
......@@ -373,10 +417,10 @@ uint8_t TimerM_PWM_set_freq2(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
high_level_Pulse[counter][TIMERM_CHB] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHB]) / 1000) & 0x0FFFF);
high_level_Pulse[counter][TIMERM_CHC] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHC]) / 1000) & 0x0FFFF);
high_level_Pulse[counter][TIMERM_CHD] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHD]) / 1000) & 0x0FFFF);
TMM0_Set_Counter(1 << 1, high_level_Pulse[counter][TIMERM_CHB]);
TMM0_Set_Counter(1 << 2, high_level_Pulse[counter][TIMERM_CHC]);
TMM0_Set_Counter(1 << 3, high_level_Pulse[counter][TIMERM_CHD]);
TMM0_Set_Counter(1, cycle_pulse[counter]);
TMM0_Set_Counter(1 << 1, (uint16_t)(high_level_Pulse[counter][TIMERM_CHB] & 0x0FFFF));
TMM0_Set_Counter(1 << 2, (uint16_t)(high_level_Pulse[counter][TIMERM_CHC] & 0x0FFFF));
TMM0_Set_Counter(1 << 3, (uint16_t)(high_level_Pulse[counter][TIMERM_CHD] & 0x0FFFF));
TMM0_Set_Counter(1, (uint16_t)(cycle_pulse[counter] & 0x0FFFF));
}
else if (counter == TIMERM_COUNTER1)
{
......@@ -384,10 +428,10 @@ uint8_t TimerM_PWM_set_freq2(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
high_level_Pulse[counter][TIMERM_CHB] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHB]) / 1000) & 0x0FFFF);
high_level_Pulse[counter][TIMERM_CHC] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHC]) / 1000) & 0x0FFFF);
high_level_Pulse[counter][TIMERM_CHD] = (((cycle_pulse[counter] * pwm_duty[counter][TIMERM_CHD]) / 1000) & 0x0FFFF);
TMM1_Set_Counter(1 << 1, high_level_Pulse[counter][TIMERM_CHB]);
TMM1_Set_Counter(1 << 2, high_level_Pulse[counter][TIMERM_CHC]);
TMM1_Set_Counter(1 << 3, high_level_Pulse[counter][TIMERM_CHD]);
TMM1_Set_Counter(1, cycle_pulse[counter]);
TMM1_Set_Counter(1 << 1, (uint16_t)(high_level_Pulse[counter][TIMERM_CHB] & 0x0FFFF));
TMM1_Set_Counter(1 << 2, (uint16_t)(high_level_Pulse[counter][TIMERM_CHC] & 0x0FFFF));
TMM1_Set_Counter(1 << 3, (uint16_t)(high_level_Pulse[counter][TIMERM_CHD] & 0x0FFFF));
TMM1_Set_Counter(1, (uint16_t)(cycle_pulse[counter] & 0x0FFFF));
}
else
{
......@@ -395,11 +439,8 @@ uint8_t TimerM_PWM_set_freq2(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
}
return 0;
}
void TimerM_PWM_Init(void)
{
}
Firmware/utility/程序释放/haojin750tft_2024-9-6/HJ_7500-02TY0000_BootApp_S1.05_F1.05_240906.hex 0 → 100644
View file @ ddb97726
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