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根据 STM32 RTC的万年历

例子基本是照抄官方的万年历算法也没深入研究主要是大赛都要求会用DS1302若我用STM32来做肯定不用那个片子了。这个用的是LSE…

比如基本是照抄官方的 万年历算法也没深入研究 主要是大赛 都要求会用DS1302 若我用STM32来做 必定不必那个片子了。

这个用的是 LSE (片外低速时钟)合作 掉电寄存器来确认是否装备时钟。

注释很全 话不多说了。

u8 TimeDisplay;
int main(void)
{
SystemInit();

stm32_Init ();//GPIO PA8 Init
USART_Configuration();//USART2 9600-8-N-1
NVIC_Configuration();//Enable the RTC Interrupt
RTC_Configuration();//RTC的发动

start_rct();//检测是否装备时钟
Time_Show();//不断地时钟串口输出

}

void LEDToggle(void)
{
GPIOA->ODR=GPIOA->ODR^GPIO_Pin_8 ;
}

RTC.C///////////////////////////////////////////////////////////////////////////////

#include “stm32f10x.h”
#include //用到printf函数的串口的输出函数 留意勾选MicroLIB

u32 Time_Regulate(void);
void Time_Adjust(void);
void Time_Show(void);
void Time_Display(u32 TimeVar);
u32 USART_Scanf(u32 value);
extern u8 TimeDisplay;

void RTC_Configuration(void)
{
/* Enable PWR and BKP clocks */
RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR | RCC_APB1Periph_BKP, ENABLE);

/* Allow access to BKP Domain */
PWR_BackupAccessCmd(ENABLE);

/* Reset Backup Domain */
//BKP_DeInit(); //记载0XA5A5 来确认是否重置时刻

/* Enable LSE */
RCC_LSEConfig(RCC_LSE_ON);
/* Wait till LSE is ready */
while (RCC_GetFlagStatus(RCC_FLAG_LSERDY) == RESET)
{}

/* Select LSE as RTC Clock Source */
RCC_RTCCLKConfig(RCC_RTCCLKSource_LSE);

/* Enable RTC Clock */
RCC_RTCCLKCmd(ENABLE);

/* Wait for RTC registers synchronization */
RTC_WaitForSynchro();

/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();

/* Enable the RTC Second */
RTC_ITConfig(RTC_IT_SEC, ENABLE);

/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();

/* Set RTC prescaler: set RTC period to 1sec */
RTC_SetPrescaler(32767); /* RTC period = RTCCLK/RTC_PR = (32.768 KHz)/(32767+1) */

/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
}

/*******************************************************************************
* Function Name : Time_Regulate
* Description : Returns the time entered by user, using Hyperterminal.
* Input : None
* Output : None
* Return : Current time RTC counter value
*******************************************************************************/
//u32 Month_Days[13] = {0,31,28,31,30, 31, 30, 31, 31, 30, 31, 30, 31};

u32 Month_Days_Accu_C[13] = {0,31,59,90,120,151,181,212,243,273,304,334,365};
u32 Month_Days_Accu_L[13] = {0,31,60,91,121,152,182,213,244,274,305,335,366};
#define SecsPerDay (3600*24)

u32 Time_Regulate(void)
{
#if 1
u32 Tmp_Year=0xFFFF, Tmp_Month=0xFF, Tmp_Date=0xFF;
u32 LeapY, ComY, TotSeconds, TotDays;
#endif
u32 Tmp_HH = 0xFF, Tmp_MM = 0xFF, Tmp_SS = 0xFF;

printf(“\r\n==============Time Settings=====================================”);

#if 1
printf(“\r\n Please Set Year”);
while(Tmp_Year == 0xFFFF)
{
/*32-bit counter at Second Unit–> 4*1024*1024(s) –> 49710(day) –> 136(year)*/
Tmp_Year = USART_Scanf(2136);
}
printf(“: %d”, Tmp_Year);

printf(“\r\n Please Set Month”);
while(Tmp_Month == 0xFF)
{
Tmp_Month = USART_Scanf(12);
}
printf(“: %d”, Tmp_Month);

printf(“\r\n Please Set Date”);
while(Tmp_Date == 0xFF)
{
Tmp_Date = USART_Scanf(31);
}
printf(“: %d”, Tmp_Date);
#endif

printf(“\r\n Please Set Hours”);
while(Tmp_HH == 0xFF)
{
Tmp_HH = USART_Scanf(23);
}
printf(“: %d”, Tmp_HH);

printf(“\r\n Please Set Minutes”);
while(Tmp_MM == 0xFF)
{
Tmp_MM = USART_Scanf(59);
}
printf(“: %d”, Tmp_MM);;

printf(“\r\n Please Set Seconds”);
while(Tmp_SS == 0xFF)
{
Tmp_SS = USART_Scanf(59);
}
printf(“: %d”, Tmp_SS);

#if 1
{
/* change Year-Month-Data-Hour-Minute-Seconds into X(Second) to set RTC->CNTR */
if(Tmp_Year==2000)
LeapY = 0;
else
LeapY = (Tmp_Year – 2000 -1)/4 +1;

ComY = (Tmp_Year – 2000)-(LeapY);

if (Tmp_Year%4)
//common year
TotDays = LeapY*366 + ComY*365 + Month_Days_Accu_C[Tmp_Month-1] + (Tmp_Date-1);
else
//leap year
TotDays = LeapY*366 + ComY*365 + Month_Days_Accu_L[Tmp_Month-1] + (Tmp_Date-1);

TotSeconds = TotDays*SecsPerDay + (Tmp_HH*3600 + Tmp_MM*60 + Tmp_SS);
}
#endif

/* Return the value to store in RTC counter register */
//return((Tmp_HH*3600 + Tmp_MM*60 + Tmp_SS));
return TotSeconds;
}

/*******************************************************************************
* Function Name : Time_Adjust
* Description : Adjusts time.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void Time_Adjust(void)
{
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
/* Change the current time */
RTC_SetCounter(Time_Regulate());
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
}

/*******************************************************************************
* Function Name : Time_Display
* Description : Displays the current time.
* Input : – TimeVar: RTC counter value.
* Output : None
* Return : None
*******************************************************************************/
#define SecsPerComYear 3153600//(365*3600*24)
#define SecsPerLeapYear 31622400//(366*3600*24)
#define SecsPerFourYear 126230400//((365*3600*24)*3+(366*3600*24))
#define SecsPerDay (3600*24)

s32 Year_Secs_Accu[5]={0,
31622400,
63158400,
94694400,
126230400};

s32 Month_Secs_Accu_C[13] = { 0,
2678400,
5097600,
7776000,
10368000,
13046400,
15638400,
18316800,
20995200,
23587200,
26265600,
28857600,
31536000};
s32 Month_Secs_Accu_L[13] = {0,
2678400,
5184000,
7862400,
10454400,
13132800,
15724800,
18403200,
21081600,
23673600,
26352000,
28944000,
31622400};

void Time_Display(u32 TimeVar)
{
#if 1
u32 TY = 0, TM = 1, TD = 0;
s32 Num4Y,NumY, OffSec, Off4Y = 0;
u32 i;
s32 NumDay; //OffDay;
#endif
u32 THH = 0, TMM = 0, TSS = 0;
#if 0
/* Compute hours */
THH = TimeVar/3600;
/* Compute minutes */
TMM = (TimeVar % 3600)/60;
/* Compute seconds */
TSS = (TimeVar % 3600)% 60;
#endif
#if 1
{
Num4Y = TimeVar/SecsPerFourYear;
OffSec = TimeVar%SecsPerFourYear;

i=1;
while(OffSec > Year_Secs_Accu[i++])
Off4Y++;

/* Numer of Complete Year */
NumY = Num4Y*4 + Off4Y;
/* 2000,2001,…~2000+NumY-1 complete year before, so this year is 2000+NumY*/
TY = 2000+NumY;

OffSec = OffSec – Year_Secs_Accu[i-2];

/* Month (TBD with OffSec)*/
i=0;
if(TY%4)
{// common year
while(OffSec > Month_Secs_Accu_C[i++]);
TM = i-1;
OffSec = OffSec – Month_Secs_Accu_C[i-2];
}
else
{// leap year
while(OffSec > Month_Secs_Accu_L[i++]);
TM = i-1;
OffSec = OffSec – Month_Secs_Accu_L[i-2];
}

/* Date (TBD with OffSec) */
NumDay = OffSec/SecsPerDay;
OffSec = OffSec%SecsPerDay;
TD = NumDay+1;

/* Compute hours */
THH = OffSec/3600;
/* Compute minutes */
TMM = (OffSec % 3600)/60;
/* Compute seconds */
TSS = (OffSec % 3600)% 60;
}
#endif

printf(“Date: %0.4d-%0.2d-%0.2d Time: %0.2d:%0.2d:%0.2d\r”,TY, TM, TD,THH, TMM, TSS);
}

/*******************************************************************************
* Function Name : Time_Show
* Description : Shows the current time (HH:MM:SS) on the Hyperterminal.
* Input : None
* Output : None
* Return : None
******************************************************************************/
void Time_Show(void)
{
printf(“\n\r”);

/* Infinite loop */
while (1)
{
/* If 1s has paased */
if(TimeDisplay == 1)
{
/* Display current time */
Time_Display(RTC_GetCounter());
TimeDisplay = 0;
}
}
}

/*******************************************************************************
* Function Name : USART_Scanf
* Description : Gets numeric values from the hyperterminal.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
u32 USART_Scanf(u32 value)
{
u32 index = 0;
u32 tmp[4] = {0, 0};
u32 Num;

if (value==2136)
Num = 4;
else
Num = 2;

while(index < Num)
{
/* Loop until RXNE = 1 */
while(USART_GetFlagStatus(USART2, USART_FLAG_RXNE) == RESET)
{
}
tmp[index++] = (USART_ReceiveData(USART2));
if((tmp[index – 1] < 0x30) || (tmp[index - 1] > 0x39))
{
printf(“\n\rPlease enter valid number between 0 and 9”);
index–;
}
}
/* Calculate the Corresponding value */
if (value!=2136)
index = ((tmp[0] – 0x30) * 10) + (tmp[1] – 0x30);
else
index = ((tmp[0] – 0x30) * 1000) + ((tmp[1] – 0x30) * 100) + ((tmp[2] – 0x30) * 10) + (tmp[3] – 0x30);
/* Checks */
if(index > value)
{
printf(“\n\rPlease enter valid number between 0 and %d”, value);
return 0xFF;
}
return index;
}

void start_rct(void)
{
if(BKP_ReadBackupRegister(BKP_DR1) != 0xA5A5)
{
/* Backup data register value is not correct or not yet programmed (when
the first time the program is executed) */

printf(“\r\n\n RTC not yet configured….”);

/* RTC Configuration */
RTC_Configuration();

printf(“\r\n RTC configured….”);

/* Adjust time by values entred by the user on the hyperterminal */
Time_Adjust();

BKP_WriteBackupRegister(BKP_DR1, 0xA5A5);
}
else
{
/* Check if the Power On Reset flag is set */
if(RCC_GetFlagStatus(RCC_FLAG_PORRST) != RESET)
{
printf(“\r\n\n Power On Reset occurred….”);
}
/* Check if the Pin Reset flag is set */
else if(RCC_GetFlagStatus(RCC_FLAG_PINRST) != RESET)
{
printf(“\r\n\n External Reset occurred….”);
}

printf(“\r\n No need to configure RTC….”);
/*一下都是能够省掉的 RTC_Configuration 已有启用 RTC_IT_SEC */
/* Wait for RTC registers synchronization */
RTC_WaitForSynchro();

/* Enable the RTC Second */
RTC_ITConfig(RTC_IT_SEC, ENABLE);
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
}

}

其间这个函数决议了 printf 函数的输出方针 一定要有的。
int fputc(int ch)
{
USART_SendData(USART2, (u8) ch);
while(USART_GetFlagStatus(USART2, USART_FLAG_TXE) == RESET);
return ch;
}

秒中止;

/******************************************************************************/
/* STM32F10x Peripherals Interrupt Handlers */
/******************************************************************************/

/**
* @brief This function handles RTC global interrupt request.
* @param None
* @retval None
*/
extern u8 TimeDisplay;
void LEDToggle(void);
void RTC_IRQHandler(void)
{
if (RTC_GetITStatus(RTC_IT_SEC) != RESET)
{
/* Clear the RTC Second interrupt */
RTC_ClearITPendingBit(RTC_IT_SEC);

/* Toggle LED1 闪灯*/
LEDToggle();

/* Enable time update */
TimeDisplay = 1;
}
}

不要运用串口帮手 引荐运用超级终端。

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