목차
[WAT-STM32-2.8] 10번 예제 RCC 함수화
WAT-STM32-2.8 예제 중 10번째로 RCC 기능을 함수화 하는 예제입니다.
주요 코드
RCC 부분이 추가되었습니다.
void RCC_init() // RCC_init() 함수
{
// Clock control register
// Bit17 HSERDY: External high-speed clock ready flag
// Bit16 HSEON: External high-speed clock enable
unsigned char sws = 0;
RCC->CR |= 0X00010000; // HSEON
while(!(RCC->CR>>17)); //HSE 준비될때까지 기다림
// Clock configuration register (RCC_CFGR)
// Bits21:18 PLLMUL: PLL multiplication factor
// Bits10:8 PPRE1: APB low-speed prescaler (APB1)
/* Bit10-8 0x100 100: HCLK divided by 2 */
RCC->CFGR = 0x00000400;
/*
0000:PLL input clock x 2 1000:PLL input clock x 10
0001:PLL input clock x 3 1001:PLL input clock x 11
0010:PLL input clock x 4 1010:PLL input clock x 12
0011:PLL input clock x 5 1011:PLL input clock x 13
0100:PLL input clock x 6 1100:PLL input clock x 14
0101:PLL input clock x 7 1101:PLL input clock x 15
0110:PLL input clock x 8 1110:PLL input clock x 16
0111:PLL input clock x 9 1111:PLL input clock x 16
*/
RCC->CFGR |= 7<<18; // PLL input clock x 9 -> 72MHz
RCC->CFGR |= 1<<16; //1: HSE oscillator clock selected as PLL input clock
FLASH->ACR|=0x32;
RCC->CR |= 1<<24; //1: PLL ON
while(!(RCC->CR>>25)); //0: PLL unlocked 기다림
RCC->CFGR |= 1<<1; //10: PLL selected as system clock
while(sws != 0x2) // 10: PLL used as system clock
{
sws = RCC->CFGR>>2; // Bits3:2 10: PLL used as system clock
sws &= 0x3;
}
}
RCC 를 함수화 하여 main(void)코드는 더 간소화 되었습니다.
int main(void)
{
// RCC 초기화 함수 호출
RCC_init();
/* GPIOB Port Enable*/
RCC->APB2ENR |= RCC_APB2Periph_GPIOB;
/*-- GPIO Mode Configuration speed, input/output -----------------------*/
/*-- GPIOB max speed: 50MHz , General purpose output push-pull ---*/
GPIOB->CRL &= 0xFFFFF0FF;
GPIOB->CRL |= 0x00000300;
while (1)
{
GPIOB->BRR = GPIO_Pin_2;
Delay(0x17FFFF*5); // 72MHz 일때 약 1초
GPIOB->BSRR = GPIO_Pin_2;
Delay(0x17FFFF*5); // 72MHz 일때 약 1초
}
}
결과화면
앞의 예제와 동일하게 1초마다 ON/OFF 합니다.
WAT-STM32-2.8보드 전체 예제
제품 구매
WAT-STM32-2.8 [STM32F103RB Board + 2.8인치 TFT LCD 터치 세트] 는 https://kit128.com/goods/view?no=221 에서 구매하실 수 있습니다.
