/****************************************************************************************************************************************** * 文件名称: system_SWM320.c * 功能说明: SWM320单片机的时钟设置 * 技术支持: http://www.synwit.com.cn/e/tool/gbook/?bid=1 * 注意事项: * 版本日期: V1.1.0 2017年10月25日 * 升级记录: * * ******************************************************************************************************************************************* * @attention * * THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS WITH CODING INFORMATION * REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME. AS A RESULT, SYNWIT SHALL NOT BE HELD LIABLE * FOR ANY DIRECT, INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE CONTENT * OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING INFORMATION CONTAINED HEREIN IN CONN- * -ECTION WITH THEIR PRODUCTS. * * COPYRIGHT 2012 Synwit Technology *******************************************************************************************************************************************/ #include #include "SWM320.h" /****************************************************************************************************************************************** * 系统时钟设定 *****************************************************************************************************************************************/ #define SYS_CLK_20MHz 0 //0 内部高频20MHz RC振荡器 #define SYS_CLK_40MHz 1 //1 内部高频40MHz RC振荡器 #define SYS_CLK_32KHz 2 //2 内部低频32KHz RC振荡器 #define SYS_CLK_XTAL 3 //3 外部晶体振荡器(2-30MHz) #define SYS_CLK_PLL 4 //4 片内锁相环输出 #define SYS_CLK SYS_CLK_PLL #define SYS_CLK_DIV_1 0 #define SYS_CLK_DIV_2 1 #define SYS_CLK_DIV SYS_CLK_DIV_1 #define __HSI (20000000UL) //高速内部时钟 #define __LSI (32000UL) //低速内部时钟 #define __HSE (20000000UL) //高速外部时钟 /********************************** PLL 设定 ********************************************** * VCO输出频率 = PLL输入时钟 / INDIV * 4 * FBDIV * PLL输出频率 = PLL输入时钟 / INDIV * 4 * FBDIV / OUTDIV = VCO输出频率 / OUTDIV * 注意:VCO输出频率需要在 [600MHz, 1200MHz] 之间 *****************************************************************************************/ #define SYS_PLL_SRC SYS_CLK_20MHz //可取值SYS_CLK_20MHz、SYS_CLK_XTAL #define PLL_IN_DIV 5 #define PLL_FB_DIV 60 #define PLL_OUT_DIV8 0 #define PLL_OUT_DIV4 1 #define PLL_OUT_DIV2 2 #define PLL_OUT_DIV PLL_OUT_DIV8 uint32_t SystemCoreClock = __HSI; //System Clock Frequency (Core Clock) uint32_t CyclesPerUs = (__HSI / 1000000); //Cycles per micro second /****************************************************************************************************************************************** * 函数名称: * 功能说明: This function is used to update the variable SystemCoreClock and must be called whenever the core clock is changed * 输 入: * 输 出: * 注意事项: ******************************************************************************************************************************************/ void SystemCoreClockUpdate(void) { if (SYS->CLKSEL & SYS_CLKSEL_SYS_Msk) //SYS_CLK <= HFCK { if (SYS->CLKSEL & SYS_CLKSEL_HFCK_Msk) //HFCK <= XTAL { SystemCoreClock = __HSE; } else //HFCK <= HRC { if (SYS->HRCCR & SYS_HRCCR_DBL_Msk) //HRC = 40MHz { SystemCoreClock = __HSI * 2; } else //HRC = 20MHz { SystemCoreClock = __HSI; } } } else //SYS_CLK <= LFCK { if (SYS->CLKSEL & SYS_CLKSEL_LFCK_Msk) //LFCK <= PLL { if (SYS->PLLCR & SYS_PLLCR_INSEL_Msk) //PLL_SRC <= HRC { SystemCoreClock = __HSI; } else //PLL_SRC <= XTAL { SystemCoreClock = __HSE; } SystemCoreClock = SystemCoreClock / PLL_IN_DIV * PLL_FB_DIV * 4 / (2 << (2 - PLL_OUT_DIV)); } else //LFCK <= LRC { SystemCoreClock = __LSI; } } if (SYS->CLKDIV & SYS_CLKDIV_SYS_Msk) SystemCoreClock /= 2; CyclesPerUs = SystemCoreClock / 1000000; } /****************************************************************************************************************************************** * 函数名称: * 功能说明: The necessary initializaiton of systerm * 输 入: * 输 出: * 注意事项: ******************************************************************************************************************************************/ void SystemInit(void) { SYS->CLKEN |= (1 << SYS_CLKEN_ANAC_Pos); Flash_Param_at_xMHz(120); switch (SYS_CLK) { case SYS_CLK_20MHz: //0 内部高频20MHz RC振荡器 switchCLK_20MHz(); break; case SYS_CLK_40MHz: //1 内部高频40MHz RC振荡器 switchCLK_40MHz(); break; case SYS_CLK_32KHz: //2 内部低频32KHz RC振荡器 switchCLK_32KHz(); break; case SYS_CLK_XTAL: //3 外部晶体振荡器(2-30MHz) switchCLK_XTAL(); break; case SYS_CLK_PLL: //4 片内锁相环输出 switchCLK_PLL(); break; } SYS->CLKDIV &= ~SYS_CLKDIV_SYS_Msk; SYS->CLKDIV |= (SYS_CLK_DIV << SYS_CLKDIV_SYS_Pos); SystemCoreClockUpdate(); if (SystemCoreClock > 80000000) { Flash_Param_at_xMHz(120); } else if (SystemCoreClock > 40000000) { Flash_Param_at_xMHz(80); } else if (SystemCoreClock > 30000000) { Flash_Param_at_xMHz(40); } else { Flash_Param_at_xMHz(30); } } static void delay_3ms(void) { uint32_t i; if (((SYS->CLKSEL & SYS_CLKSEL_SYS_Msk) == 0) && ((SYS->CLKSEL & SYS_CLKSEL_LFCK_Msk) == 0)) //32KHz { for (i = 0; i < 20; i++) __NOP(); } else { for (i = 0; i < 20000; i++) __NOP(); } } void switchCLK_20MHz(void) { SYS->HRCCR = (0 << SYS_HRCCR_OFF_Pos) | (0 << SYS_HRCCR_DBL_Pos); //HRC = 20MHz delay_3ms(); SYS->CLKSEL &= ~SYS_CLKSEL_HFCK_Msk; //HFCK <= HRC SYS->CLKSEL |= (1 << SYS_CLKSEL_SYS_Pos); //SYS_CLK <= HFCK } void switchCLK_40MHz(void) { SYS->HRCCR = (0 << SYS_HRCCR_OFF_Pos) | (1 << SYS_HRCCR_DBL_Pos); //HRC = 40MHz delay_3ms(); SYS->CLKSEL &= ~SYS_CLKSEL_HFCK_Msk; //HFCK <= HRC SYS->CLKSEL |= (1 << SYS_CLKSEL_SYS_Pos); //SYS_CLK <= HFCK } void switchCLK_32KHz(void) { SYS->CLKEN |= (1 << SYS_CLKEN_RTCBKP_Pos); SYS->LRCCR &= ~(1 << SYS_LRCCR_OFF_Pos); delay_3ms(); SYS->CLKSEL &= ~SYS_CLKSEL_LFCK_Msk; //LFCK <= LRC SYS->CLKSEL &= ~SYS_CLKSEL_SYS_Msk; //SYS_CLK <= LFCK } void switchCLK_XTAL(void) { SYS->XTALCR = (1 << SYS_XTALCR_EN_Pos); delay_3ms(); delay_3ms(); SYS->CLKSEL |= (1 << SYS_CLKSEL_HFCK_Pos); //HFCK <= XTAL SYS->CLKSEL |= (1 << SYS_CLKSEL_SYS_Pos); //SYS_CLK <= HFCK } void switchCLK_PLL(void) { PLLInit(); SYS->PLLCR |= (1 << SYS_PLLCR_OUTEN_Pos); SYS->CLKSEL |= (1 << SYS_CLKSEL_LFCK_Pos); //LFCK <= PLL SYS->CLKSEL &= ~SYS_CLKSEL_SYS_Msk; //SYS_CLK <= LFCK } void PLLInit(void) { if (SYS_PLL_SRC == SYS_CLK_20MHz) { SYS->HRCCR = (0 << SYS_HRCCR_OFF_Pos) | (0 << SYS_HRCCR_DBL_Pos); //HRC = 20MHz delay_3ms(); SYS->PLLCR |= (1 << SYS_PLLCR_INSEL_Pos); //PLL_SRC <= HRC } else if (SYS_PLL_SRC == SYS_CLK_XTAL) { SYS->XTALCR = (1 << SYS_XTALCR_EN_Pos); delay_3ms(); delay_3ms(); SYS->PLLCR &= ~(1 << SYS_PLLCR_INSEL_Pos); //PLL_SRC <= XTAL } SYS->PLLDIV &= ~(SYS_PLLDIV_INDIV_Msk | SYS_PLLDIV_FBDIV_Msk | SYS_PLLDIV_OUTDIV_Msk); SYS->PLLDIV |= (PLL_IN_DIV << SYS_PLLDIV_INDIV_Pos) | (PLL_FB_DIV << SYS_PLLDIV_FBDIV_Pos) | (PLL_OUT_DIV << SYS_PLLDIV_OUTDIV_Pos); SYS->PLLCR &= ~(1 << SYS_PLLCR_OFF_Pos); while (SYS->PLLLOCK == 0) ; //等待PLL锁定 }