rtt-f030/bsp/K60Fxxxx/drivers/system_MK60F12.c

367 lines
19 KiB
C

/*
** ###################################################################
** Compilers: ARM Compiler
** Freescale C/C++ for Embedded ARM
** GNU C Compiler
** IAR ANSI C/C++ Compiler for ARM
**
** Reference manual: K60P144M150SF3RM, Rev. 2, Dec 2011
** Version: rev. 1.3, 2012-04-13
**
** Abstract:
** Provides a system configuration function and a global variable that
** contains the system frequency. It configures the device and initializes
** the oscillator (PLL) that is part of the microcontroller device.
**
** Copyright: 2012 Freescale Semiconductor, Inc. All Rights Reserved.
**
** http: www.freescale.com
** mail: support@freescale.com
**
** Revisions:
** - rev. 1.0 (2011-08-24)
** Initial version
** - rev. 1.1 (2011-11-03)
** Registers updated according to the new reference manual revision - Rev. 1, Oct 2011
** Registers of the following modules have been updated - AXBS, CAN, I2S, MCG, MPU, NFC, RCM, RTC, SDHC, SIM, USBHS, WDOG
** The following modules have been removed - DDR, DRY
** - rev. 1.2 (2012-01-04)
** Registers updated according to the new reference manual revision - Rev. 2, Dec 2011
** EWM - INTEN bit in EWM_CTRL register has been added.
** PDB - register PDB_PO0EN renamed to PRB_POEN.
** PMC - BGEN bit in PMC_REGSC register has been removed.
** SIM - several changes in SCGC registers. Bit USBHS in SOPT2 register removed.
** UART - new bits RXOFE in regiter CFIFO and RXOF in register SFIFO.
** - rev. 1.3 (2012-04-13)
** Added new #define symbol MCU_MEM_MAP_VERSION_MINOR.
** Added new #define symbols <peripheralType>_BASE_PTRS.
**
** ###################################################################
*/
/**
* @file MK60F12
* @version 1.3
* @date 2012-04-13
* @brief Device specific configuration file for MK60F12 (implementation file)
*
* Provides a system configuration function and a global variable that contains
* the system frequency. It configures the device and initializes the oscillator
* (PLL) that is part of the microcontroller device.
*/
#include <stdint.h>
#include "MK60F12.h"
#define DISABLE_WDOG 1
#define CLOCK_SETUP 1
/* Predefined clock setups
0 ... Multipurpose Clock Generator (MCG) in FLL Engaged Internal (FEI) mode
Reference clock source for MCG module is the slow internal clock source 32.768kHz
Core clock = 41.94MHz, BusClock = 41.94MHz
1 ... Multipurpose Clock Generator (MCG) in PLL Engaged External (PEE) mode
Reference clock source for MCG module is an external reference clock source 50MHz
Core clock = 120MHz, BusClock = 60MHz
2 ... Multipurpose Clock Generator (MCG) in Bypassed Low Power External (BLPE) mode
Core clock/Bus clock derived directly from an external reference clock source 50MHz with no multiplication
Core clock = 50MHz, BusClock = 50MHz
*/
/*----------------------------------------------------------------------------
Define clock source values
*----------------------------------------------------------------------------*/
#if (CLOCK_SETUP == 0)
#define CPU_XTAL0_CLK_HZ 50000000u /* Value of the external crystal or oscillator clock frequency in Hz connected to System Oscillator 0 */
#define CPU_XTAL1_CLK_HZ 8000000u /* Value of the external crystal or oscillator clock frequency in Hz connected to System Oscillator 1 */
#define CPU_XTAL32k_CLK_HZ 32768u /* Value of the external 32k crystal or oscillator clock frequency in Hz */
#define CPU_INT_SLOW_CLK_HZ 32768u /* Value of the slow internal oscillator clock frequency in Hz */
#define CPU_INT_FAST_CLK_HZ 4000000u /* Value of the fast internal oscillator clock frequency in Hz */
#define DEFAULT_SYSTEM_CLOCK 41943040u /* Default System clock value */
#elif (CLOCK_SETUP == 1)
#define CPU_XTAL0_CLK_HZ 50000000u /* Value of the external crystal or oscillator clock frequency in Hz connected to System Oscillator 0 */
#define CPU_XTAL1_CLK_HZ 8000000u /* Value of the external crystal or oscillator clock frequency in Hz connected to System Oscillator 1 */
#define CPU_XTAL32k_CLK_HZ 32768u /* Value of the external 32k crystal or oscillator clock frequency in Hz */
#define CPU_INT_SLOW_CLK_HZ 32768u /* Value of the slow internal oscillator clock frequency in Hz */
#define CPU_INT_FAST_CLK_HZ 4000000u /* Value of the fast internal oscillator clock frequency in Hz */
#define DEFAULT_SYSTEM_CLOCK 120000000u /* Default System clock value */
#elif (CLOCK_SETUP == 2)
#define CPU_XTAL0_CLK_HZ 50000000u /* Value of the external crystal or oscillator clock frequency in Hz connected to System Oscillator 0 */
#define CPU_XTAL1_CLK_HZ 8000000u /* Value of the external crystal or oscillator clock frequency in Hz connected to System Oscillator 1 */
#define CPU_XTAL32k_CLK_HZ 32768u /* Value of the external 32k crystal or oscillator clock frequency in Hz */
#define CPU_INT_SLOW_CLK_HZ 32768u /* Value of the slow internal oscillator clock frequency in Hz */
#define CPU_INT_FAST_CLK_HZ 4000000u /* Value of the fast internal oscillator clock frequency in Hz */
#define DEFAULT_SYSTEM_CLOCK 50000000u /* Default System clock value */
#endif /* (CLOCK_SETUP == 2) */
/* ----------------------------------------------------------------------------
-- Core clock
---------------------------------------------------------------------------- */
uint32_t SystemCoreClock = DEFAULT_SYSTEM_CLOCK;
/* ----------------------------------------------------------------------------
-- SystemInit()
---------------------------------------------------------------------------- */
void SystemInit (void) {
#if ((__FPU_PRESENT == 1) && (__FPU_USED == 1))
SCB->CPACR |= ((3UL << 10*2) | (3UL << 11*2)); /* set CP10, CP11 Full Access */
#endif /* ((__FPU_PRESENT == 1) && (__FPU_USED == 1)) */
#if (DISABLE_WDOG)
/* Disable the WDOG module */
/* WDOG_UNLOCK: WDOGUNLOCK=0xC520 */
WDOG->UNLOCK = (uint16_t)0xC520u; /* Key 1 */
/* WDOG_UNLOCK : WDOGUNLOCK=0xD928 */
WDOG->UNLOCK = (uint16_t)0xD928u; /* Key 2 */
/* WDOG_STCTRLH: ??=0,DISTESTWDOG=0,BYTESEL=0,TESTSEL=0,TESTWDOG=0,??=0,STNDBYEN=1,WAITEN=1,STOPEN=1,DBGEN=0,ALLOWUPDATE=1,WINEN=0,IRQRSTEN=0,CLKSRC=1,WDOGEN=0 */
WDOG->STCTRLH = (uint16_t)0x01D2u;
#endif /* (DISABLE_WDOG) */
/* System clock initialization */
#if (CLOCK_SETUP == 0)
/* SIM_SCGC5: PORTA=1 */
SIM->SCGC5 |= (uint32_t)0x0200UL; /* Enable clock gate for ports to enable pin routing */
/* SIM_CLKDIV1: OUTDIV1=0,OUTDIV2=0,OUTDIV3=1,OUTDIV4=1,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0 */
SIM->CLKDIV1 = (uint32_t)0x00110000UL; /* Update system prescalers */
/* SIM_SOPT2: PLLFLLSEL=0 */
SIM->SOPT2 &= (uint32_t)~0x00030000UL; /* Select FLL as a clock source for various peripherals */
/* SIM_SOPT1: OSC32KSEL=0 */
SIM->SOPT1 &= (uint32_t)~0x00080000UL; /* System oscillator drives 32 kHz clock for various peripherals */
/* SIM_SCGC1: OSC1=1 */
SIM->SCGC1 |= (uint32_t)0x20UL;
/* PORTA_PCR18: ISF=0,MUX=0 */
PORTA->PCR[18] &= (uint32_t)~0x01000700UL;
/* Switch to FEI Mode */
/* MCG_C1: CLKS=0,FRDIV=0,IREFS=1,IRCLKEN=1,IREFSTEN=0 */
MCG->C1 = (uint8_t)0x06U;
/* MCG_C2: LOCRE0=0,??=0,RANGE0=2,HGO0=0,EREFS0=0,LP=0,IRCS=0 */
MCG->C2 = (uint8_t)0x20U;
/* MCG_C4: DMX32=0,DRST_DRS=1 */
MCG->C4 = (uint8_t)((MCG->C4 & (uint8_t)~(uint8_t)0xC0U) | (uint8_t)0x20U);
/* OSC0_CR: ERCLKEN=1,??=0,EREFSTEN=0,??=0,SC2P=0,SC4P=0,SC8P=0,SC16P=0 */
OSC0->CR = (uint8_t)0x80U;
/* OSC1_CR: ERCLKEN=1,??=0,EREFSTEN=0,??=0,SC2P=0,SC4P=0,SC8P=0,SC16P=0 */
OSC1->CR = (uint8_t)0x80U;
/* MCG_C7: OSCSEL=0 */
MCG->C7 &= (uint8_t)~(uint8_t)0x01U;
/* MCG_C5: PLLREFSEL0=0,PLLCLKEN0=0,PLLSTEN0=0,??=0,??=0,PRDIV0=0 */
MCG->C5 = (uint8_t)0x00U;
/* MCG_C6: LOLIE0=0,PLLS=0,CME0=0,VDIV0=0 */
MCG->C6 = (uint8_t)0x00U; /* 3 */
/* MCG_C11: PLLREFSEL1=0,PLLCLKEN1=0,PLLSTEN1=0,PLLCS=0,??=0,PRDIV1=0 */
MCG->C11 = (uint8_t)0x00U; /* 3 */
/* MCG_C12: LOLIE1=0,??=0,CME2=0,VDIV1=0 */
MCG->C12 = (uint8_t)0x00U; /* 3 */
while((MCG->S & MCG_S_IREFST_MASK) == 0x00U) { /* Check that the source of the FLL reference clock is the internal reference clock. */
}
while((MCG->S & 0x0CU) != 0x00U) { /* Wait until output of the FLL is selected */
}
#elif (CLOCK_SETUP == 1)
/* SIM_SCGC5: PORTA=1 */
SIM->SCGC5 |= (uint32_t)0x0200UL; /* Enable clock gate for ports to enable pin routing */
/* SIM_CLKDIV1: OUTDIV1=0,OUTDIV2=1,OUTDIV3=3,OUTDIV4=5,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0 */
SIM->CLKDIV1 = (uint32_t)0x01350000UL; /* Update system prescalers */
/* SIM_SOPT2: PLLFLLSEL=1 */
SIM->SOPT2 = (uint32_t)((SIM->SOPT2 & (uint32_t)~0x00020000UL) | (uint32_t)0x00010000UL); /* Select PLL 0 as a clock source for various peripherals */
/* SIM_SOPT1: OSC32KSEL=0 */
SIM->SOPT1 &= (uint32_t)~0x00080000UL; /* System oscillator drives 32 kHz clock for various peripherals */
/* SIM_SCGC1: OSC1=1 */
SIM->SCGC1 |= (uint32_t)0x20UL;
/* PORTA_PCR18: ISF=0,MUX=0 */
PORTA->PCR[18] &= (uint32_t)~0x01000700UL;
/* Switch to FBE Mode */
/* OSC0_CR: ERCLKEN=1,??=0,EREFSTEN=0,??=0,SC2P=0,SC4P=0,SC8P=0,SC16P=0 */
OSC0->CR = (uint8_t)0x80U;
/* OSC1_CR: ERCLKEN=1,??=0,EREFSTEN=0,??=0,SC2P=0,SC4P=0,SC8P=0,SC16P=0 */
OSC1->CR = (uint8_t)0x80U;
/* MCG_C7: OSCSEL=0 */
MCG->C7 &= (uint8_t)~(uint8_t)0x01U;
/* MCG_C2: LOCRE0=0,??=0,RANGE0=2,HGO0=0,EREFS0=0,LP=0,IRCS=0 */
MCG->C2 = (uint8_t)0x20U;
/* MCG_C1: CLKS=2,FRDIV=5,IREFS=0,IRCLKEN=1,IREFSTEN=0 */
MCG->C1 = (uint8_t)0xAAU;
/* MCG_C4: DMX32=0,DRST_DRS=0 */
MCG->C4 &= (uint8_t)~(uint8_t)0xE0U;
/* MCG_C5: PLLREFSEL0=0,PLLCLKEN0=0,PLLSTEN0=0,??=0,??=0,PRDIV0=4 */
MCG->C5 = (uint8_t)0x04U;
/* MCG_C6: LOLIE0=0,PLLS=0,CME0=0,VDIV0=8 */
MCG->C6 = (uint8_t)0x08U;
/* MCG_C11: PLLREFSEL1=0,PLLCLKEN1=0,PLLSTEN1=0,PLLCS=0,??=0,PRDIV1=0 */
MCG->C11 = (uint8_t)0x00U;
/* MCG_C12: LOLIE1=0,??=0,CME2=0,VDIV1=0 */
MCG->C12 = (uint8_t)0x00U;
while((MCG->S & MCG_S_IREFST_MASK) != 0x00U) { /* Check that the source of the FLL reference clock is the external reference clock. */
}
while((MCG->S & 0x0CU) != 0x08U) { /* Wait until external reference clock is selected as MCG output */
}
/* Switch to PBE Mode */
/* MCG_C6: LOLIE0=0,PLLS=1,CME0=0,VDIV0=8 */
MCG->C6 = (uint8_t)0x48U;
while((MCG->S & 0x0CU) != 0x08U) { /* Wait until external reference clock is selected as MCG output */
}
while((MCG->S & MCG_S_LOCK0_MASK) == 0x00U) { /* Wait until PLL locked */
}
/* Switch to PEE Mode */
/* MCG->C1: CLKS=0,FRDIV=5,IREFS=0,IRCLKEN=1,IREFSTEN=0 */
MCG->C1 = (uint8_t)0x2AU;
while((MCG->S & 0x0CU) != 0x0CU) { /* Wait until output of the PLL is selected */
}
#elif (CLOCK_SETUP == 2)
/* SIM_SCGC5: PORTA=1 */
SIM->SCGC5 |= (uint32_t)0x0200UL; /* Enable clock gate for ports to enable pin routing */
/* SIM_CLKDIV1: OUTDIV1=0,OUTDIV2=0,OUTDIV3=1,OUTDIV4=1,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0,??=0 */
SIM->CLKDIV1 = (uint32_t)0x00110000UL; /* Update system prescalers */
/* SIM_SOPT2: PLLFLLSEL=0 */
SIM->SOPT2 &= (uint32_t)~0x00030000UL; /* Select FLL as a clock source for various peripherals */
/* SIM_SOPT1: OSC32KSEL=0 */
SIM->SOPT1 &= (uint32_t)~0x00080000UL; /* System oscillator drives 32 kHz clock for various peripherals */
/* SIM_SCGC1: OSC1=1 */
SIM->SCGC1 |= (uint32_t)0x20UL;
/* PORTA_PCR18: ISF=0,MUX=0 */
PORTA->PCR[18] &= (uint32_t)~0x01000700UL;
/* Switch to FBE Mode */
/* OSC0_CR: ERCLKEN=1,??=0,EREFSTEN=0,??=0,SC2P=0,SC4P=0,SC8P=0,SC16P=0 */
OSC0->CR = (uint8_t)0x80U;
/* OSC1_CR: ERCLKEN=1,??=0,EREFSTEN=0,??=0,SC2P=0,SC4P=0,SC8P=0,SC16P=0 */
OSC1->CR = (uint8_t)0x80U;
/* MCG_C7: OSCSEL=0 */
MCG->C7 &= (uint8_t)~(uint8_t)0x01U;
/* MCG_C2: LOCRE0=0,??=0,RANGE0=2,HGO0=0,EREFS0=0,LP=0,IRCS=0 */
MCG->C2 = (uint8_t)0x20U;
/* MCG_C1: CLKS=2,FRDIV=5,IREFS=0,IRCLKEN=1,IREFSTEN=0 */
MCG->C1 = (uint8_t)0xAAU;
/* MCG_C4: DMX32=0,DRST_DRS=0 */
MCG->C4 &= (uint8_t)~(uint8_t)0xE0U;
/* MCG_C5: PLLREFSEL0=0,PLLCLKEN0=0,PLLSTEN0=0,??=0,??=0,PRDIV0=0 */
MCG->C5 = (uint8_t)0x00U;
/* MCG_C6: LOLIE0=0,PLLS=0,CME0=0,VDIV0=0 */
MCG->C6 = (uint8_t)0x00U;
/* MCG_C11: PLLREFSEL1=0,PLLCLKEN1=0,PLLSTEN1=0,PLLCS=0,??=0,PRDIV1=0 */
MCG->C11 = (uint8_t)0x00U;
/* MCG_C12: LOLIE1=0,??=0,CME2=0,VDIV1=0 */
MCG->C12 = (uint8_t)0x00U;
while((MCG->S & MCG_S_IREFST_MASK) != 0x00U) { /* Check that the source of the FLL reference clock is the external reference clock. */
}
while((MCG->S & 0x0CU) != 0x08U) { /* Wait until external reference clock is selected as MCG output */
}
/* Switch to BLPE Mode */
/* MCG_C2: LOCRE0=0,??=0,RANGE0=2,HGO0=0,EREFS0=0,LP=1,IRCS=0 */
MCG->C2 = (uint8_t)0x22U;
while((MCG->S & 0x0CU) != 0x08U) { /* Wait until external reference clock is selected as MCG output */
}
#endif /* (CLOCK_SETUP == 2) */
/* Disable MPU */
MPU->CESR &= ~MPU_CESR_VLD_MASK;
}
/* ----------------------------------------------------------------------------
-- SystemCoreClockUpdate()
---------------------------------------------------------------------------- */
void SystemCoreClockUpdate (void) {
uint32_t MCGOUTClock; /* Variable to store output clock frequency of the MCG module */
uint8_t Divider;
if ((MCG->C1 & MCG_C1_CLKS_MASK) == 0x0u) {
/* Output of FLL or PLL is selected */
if ((MCG->C6 & MCG_C6_PLLS_MASK) == 0x0u) {
/* FLL is selected */
if ((MCG->C1 & MCG_C1_IREFS_MASK) == 0x0u) {
/* External reference clock is selected */
if ((MCG->C7 & MCG_C7_OSCSEL_MASK) == 0x0u) {
MCGOUTClock = CPU_XTAL0_CLK_HZ; /* System oscillator 0 drives MCG clock */
} else { /* (!((MCG->C7 & MCG_C7_OSCSEL_MASK) == 0x0u)) */
MCGOUTClock = CPU_XTAL32k_CLK_HZ; /* RTC 32 kHz oscillator drives MCG clock */
} /* (!((MCG->C7 & MCG_C7_OSCSEL_MASK) == 0x0u)) */
Divider = (uint8_t)(1u << ((MCG->C1 & MCG_C1_FRDIV_MASK) >> MCG_C1_FRDIV_SHIFT));
MCGOUTClock = (MCGOUTClock / Divider); /* Calculate the divided FLL reference clock */
if ((MCG->C2 & MCG_C2_RANGE0_MASK) != 0x0u) {
MCGOUTClock /= 32u; /* If high range is enabled, additional 32 divider is active */
} /* ((MCG->C2 & MCG_C2_RANGE0_MASK) != 0x0u) */
} else { /* (!((MCG->C1 & MCG_C1_IREFS_MASK) == 0x0u)) */
MCGOUTClock = CPU_INT_SLOW_CLK_HZ; /* The slow internal reference clock is selected */
} /* (!((MCG->C1 & MCG_C1_IREFS_MASK) == 0x0u)) */
/* Select correct multiplier to calculate the MCG output clock */
switch (MCG->C4 & (MCG_C4_DMX32_MASK | MCG_C4_DRST_DRS_MASK)) {
case 0x0u:
MCGOUTClock *= 640u;
break;
case 0x20u:
MCGOUTClock *= 1280u;
break;
case 0x40u:
MCGOUTClock *= 1920u;
break;
case 0x60u:
MCGOUTClock *= 2560u;
break;
case 0x80u:
MCGOUTClock *= 732u;
break;
case 0xA0u:
MCGOUTClock *= 1464u;
break;
case 0xC0u:
MCGOUTClock *= 2197u;
break;
case 0xE0u:
MCGOUTClock *= 2929u;
break;
default:
break;
}
} else { /* (!((MCG->C6 & MCG_C6_PLLS_MASK) == 0x0u)) */
/* PLL is selected */
if ((MCG->C11 & MCG_C11_PLLCS_MASK) != 0x0u) {
/* PLL1 output is selected */
if ((MCG->C11 & MCG_C11_PLLREFSEL1_MASK) != 0x0u) {
/* OSC1 clock source used as an external reference clock */
MCGOUTClock = CPU_XTAL1_CLK_HZ;
} else { /* (!((MCG->C11 & MCG_C11_PLLREFSEL1_MASK) != 0x0u)) */
/* OSC0 clock source used as an external reference clock */
MCGOUTClock = CPU_XTAL0_CLK_HZ;
} /* (!((MCG->C11 & MCG_C11_PLLREFSEL1_MASK) != 0x0u)) */
Divider = (1u + (MCG->C11 & MCG_C11_PRDIV1_MASK));
MCGOUTClock /= Divider; /* Calculate the PLL reference clock */
Divider = ((MCG->C12 & MCG_C12_VDIV1_MASK) + 16u);
MCGOUTClock = (MCGOUTClock * Divider) / 2u; /* Calculate the MCG output clock */
} else { /* (!((MCG->C11 & MCG_C11_PLLCS_MASK) != 0x0u)) */
/* PLL0 output is selected */
if ((MCG->C5 & MCG_C5_PLLREFSEL0_MASK) != 0x0u) {
/* OSC1 clock source used as an external reference clock */
MCGOUTClock = CPU_XTAL1_CLK_HZ;
} else { /* (!((MCG->C5 & MCG_C5_PLLREFSEL0_MASK) != 0x0u)) */
/* OSC0 clock source used as an external reference clock */
MCGOUTClock = CPU_XTAL0_CLK_HZ;
} /* (!((MCG->C5 & MCG_C5_PLLREFSEL0_MASK) != 0x0u)) */
Divider = (1u + (MCG->C5 & MCG_C5_PRDIV0_MASK));
MCGOUTClock /= Divider; /* Calculate the PLL reference clock */
Divider = ((MCG->C6 & MCG_C6_VDIV0_MASK) + 16u);
MCGOUTClock = (MCGOUTClock * Divider) / 2u; /* Calculate the MCG output clock */
} /* (!((MCG->C11 & MCG_C11_PLLCS_MASK) != 0x0u)) */
} /* (!((MCG->C6 & MCG_C6_PLLS_MASK) == 0x0u)) */
} else if ((MCG->C1 & MCG_C1_CLKS_MASK) == 0x40u) {
/* Internal reference clock is selected */
if ((MCG->C2 & MCG_C2_IRCS_MASK) == 0x0u) {
MCGOUTClock = CPU_INT_SLOW_CLK_HZ; /* Slow internal reference clock selected */
} else { /* (!((MCG->C2 & MCG_C2_IRCS_MASK) == 0x0u)) */
MCGOUTClock = CPU_INT_FAST_CLK_HZ / (1 << ((MCG->SC & MCG_SC_FCRDIV_MASK) >> MCG_SC_FCRDIV_SHIFT)); /* Fast internal reference clock selected */
} /* (!((MCG->C2 & MCG_C2_IRCS_MASK) == 0x0u)) */
} else if ((MCG->C1 & MCG_C1_CLKS_MASK) == 0x80u) {
/* External reference clock is selected */
if ((MCG->C7 & MCG_C7_OSCSEL_MASK) == 0x0u) {
MCGOUTClock = CPU_XTAL0_CLK_HZ; /* System oscillator drives MCG clock */
} else { /* (!((MCG->C7 & MCG_C7_OSCSEL_MASK) == 0x0u)) */
MCGOUTClock = CPU_XTAL32k_CLK_HZ; /* RTC 32 kHz oscillator drives MCG clock */
} /* (!((MCG->C7 & MCG_C7_OSCSEL_MASK) == 0x0u)) */
} else { /* (!((MCG->C1 & MCG_C1_CLKS_MASK) == 0x80u)) */
/* Reserved value */
return;
} /* (!((MCG->C1 & MCG_C1_CLKS_MASK) == 0x80u)) */
SystemCoreClock = (MCGOUTClock / (1u + ((SIM->CLKDIV1 & SIM_CLKDIV1_OUTDIV1_MASK) >> SIM_CLKDIV1_OUTDIV1_SHIFT)));
}