/** ******************************************************************************* * @file system_TMPM3Hx.c * @brief CMSIS Cortex-M3 Device Peripheral Access Layer Source File for the * TOSHIBA 'TMPM3Hx' Device Series * @version V1.0.7.0 * $Date:: 2017-11-06 #$ * * DO NOT USE THIS SOFTWARE WITHOUT THE SOFTWARE LISENCE AGREEMENT. * * (C)Copyright TOSHIBA MICROELECTRONICS CORPORATION 2017 All rights reserved ******************************************************************************* */ #include "TMPM3H6.h" /*-------- <<< Start of configuration section >>> ----------------------------*/ /* Semi-Independent Watchdog Timer (SIWDT) Configuration */ #define SIWD_SETUP (1U) /* 1:Disable SIWD, 0:Enable SIWD */ #define SIWDEN_Val (0x00000000UL) /* SIWD Disable */ #define SIWDCR_Val (0x000000B1UL) /* SIWD Disable code */ /* Clock Generator (CG) Configuration */ #define CLOCK_SETUP (1U) /* 1:External HOSC, 0: Internal HOSC */ #define SYSCR_Val (0x00000000UL) #define STBYCR_Val (0x00000000UL) #define CG_6M_MUL_6_664_FPLL (0x001C7535UL<<8U) /* fPLL = 6MHz * 6.664 */ #define CG_8M_MUL_5_FPLL (0x00247028UL<<8U) /* fPLL = 8MHz * 5 */ #define CG_10M_MUL_4_FPLL (0x002E7020UL<<8U) /* fPLL = 10MHz * 4 */ #define CG_12M_MUL_3_328_FPLL (0x0036FA1AUL<<8U) /* fPLL = 12MHz * 3.328 */ #define CG_PLL0SEL_PLL0ON_SET ((uint32_t)0x00000001) #define CG_PLL0SEL_PLL0ON_CLEAR ((uint32_t)0xFFFFFFFE) #define CG_PLL0SEL_PLL0SEL_SET ((uint32_t)0x00000002) #define CG_PLL0SEL_PLL0SEL_CLEAR ((uint32_t)0xFFFFFFFD) #define CG_OSCCR_IHOSC1EN_CLEAR ((uint32_t)0xFFFFFFFE) #define CG_OSCCR_EOSCEN_SET ((uint32_t)0x00000002) #define CG_OSCCR_OSCSEL_SET ((uint32_t)0x00000100) #define CG_WUPHCR_WUON_START_SET ((uint32_t)0x00000001) #if (CLOCK_SETUP) #define CG_WUPHCR_WUCLK_SET ((uint32_t)0x00000100) #define PLL0SEL_Ready CG_12M_MUL_3_328_FPLL #else #define CG_WUPHCR_WUCLK_SET ((uint32_t)0x00000000) #define PLL0SEL_Ready CG_10M_MUL_4_FPLL #endif #define PLL0SEL_Val (PLL0SEL_Ready|0x00000003UL) #define PLL0SEL_MASK (0xFFFFFF00UL) /*-------- <<< End of configuration section >>> ------------------------------*/ /*-------- DEFINES -----------------------------------------------------------*/ /* Define clocks */ #define EOSC_6M (6000000UL) #define EOSC_8M (8000000UL) #define EOSC_10M (10000000UL) #define EOSC_12M (12000000UL) #define IOSC_10M (10000000UL) #define EXTALH EOSC_12M /* External high-speed oscillator freq */ #define IXTALH IOSC_10M /* Internal high-speed oscillator freq */ #define EOSC_6M_PLLON (39980000UL) /* 6.00MHz * 53.3125 / 8 */ #define EOSC_8M_PLLON (40000000UL) /* 8.00MHz * 40.0000 / 8 */ #define EOSC_10M_PLLON (40000000UL) /* 10.00MHz * 32.0000 / 8 */ #define EOSC_12M_PLLON (39940000UL) /* 12.00MHz * 26.6250 / 8 */ #define IOSC_10M_PLLON (40000000UL) /* 10.00MHz * 32.0000 / 8 */ /* Configure Warm-up time */ #define HZ_1M (1000000UL) #define WU_TIME_EXT (5000UL) /* warm-up time for EXT is 5ms */ #define INIT_TIME_PLL (100UL) /* Initial time for PLL is 100us */ #define LOCKUP_TIME_PLL (400UL) /* Lockup time for PLL is 400us */ #define WUPHCR_WUPT_EXT ((uint32_t)(((((uint64_t)WU_TIME_EXT * EXTALH / HZ_1M) - 16UL) /16UL) << 20U)) /* OSCCR = warm-up time(us) * EXTALH / 16 */ #if (CLOCK_SETUP) #define WUPHCR_INIT_PLL ((uint32_t)(((((uint64_t)INIT_TIME_PLL * EXTALH / HZ_1M) - 16UL) /16UL) << 20U)) #define WUPHCR_LUPT_PLL ((uint32_t)(((((uint64_t)LOCKUP_TIME_PLL * EXTALH / HZ_1M) - 16UL) /16UL) << 20U)) #else #define WUPHCR_INIT_PLL ((uint32_t)(((((uint64_t)INIT_TIME_PLL * IXTALH / HZ_1M) - 16UL) /16UL) << 20U)) #define WUPHCR_LUPT_PLL ((uint32_t)(((((uint64_t)LOCKUP_TIME_PLL * IXTALH / HZ_1M) - 16UL) /16UL) << 20U)) #endif /* Determine core clock frequency according to settings */ /* System clock is high-speed clock*/ #if (CLOCK_SETUP) #define CORE_TALH (EXTALH) #else #define CORE_TALH (IXTALH) #endif #if ((PLL0SEL_Val & (1U<<1U)) && (PLL0SEL_Val & (1U<<0U))) /* If PLL selected and enabled */ #if (CORE_TALH == EOSC_6M) /* If input is 6MHz */ #if ((PLL0SEL_Val & PLL0SEL_MASK) == (CG_6M_MUL_6_664_FPLL)) #define __CORE_CLK EOSC_6M_PLLON /* output clock is 39.98MHz */ #else /* fc -> reserved */ #define __CORE_CLK (0U) #endif /* End input is 6MHz */ #elif (CORE_TALH == EOSC_8M) /* If input is 8MHz */ #if ((PLL0SEL_Val & PLL0SEL_MASK) == (CG_8M_MUL_5_FPLL)) #define __CORE_CLK EOSC_8M_PLLON /* output clock is 40MHz */ #else /* fc -> reserved */ #define __CORE_CLK (0U) #endif /* End input is 8MHz */ #elif (CORE_TALH == EOSC_10M) /* If input is 10MHz */ #if ((PLL0SEL_Val & PLL0SEL_MASK) == CG_10M_MUL_4_FPLL) #define __CORE_CLK EOSC_10M_PLLON /* output clock is 40MHz */ #else /* fc -> reserved */ #define __CORE_CLK (0U) #endif /* End input is 10MHz */ #elif (CORE_TALH == EOSC_12M) /* If input is 12MHz */ #if ((PLL0SEL_Val & PLL0SEL_MASK) == CG_12M_MUL_3_328_FPLL) #define __CORE_CLK EOSC_12M_PLLON /* output clock is 39.94MHz */ #else /* fc -> reserved */ #define __CORE_CLK (0U) #endif /* End input is 12MHz */ #elif (CORE_TALH == IOSC_10M) /* If input is 10MHz */ #if ((PLL0SEL_Val & PLL0SEL_MASK) == CG_10M_MUL_4_FPLL) #define __CORE_CLK IOSC_10M_PLLON /* output clock is 40MHz */ #else /* fc -> reserved */ #define __CORE_CLK (0U) #endif /* End input is 10MHz */ #else /* input clock not known */ #define __CORE_CLK (0U) #error "Core Oscillator Frequency invalid!" #endif /* End switch input clock */ #else #define __CORE_CLK (CORE_TALH) #endif #if ((SYSCR_Val & 7U) == 0U) /* Gear -> fc */ #define __CORE_SYS (__CORE_CLK) #elif ((SYSCR_Val & 7U) == 1U) /* Gear -> fc/2 */ #define __CORE_SYS (__CORE_CLK / 2U) #elif ((SYSCR_Val & 7U) == 2U) /* Gear -> fc/4 */ #define __CORE_SYS (__CORE_CLK / 4U ) #elif ((SYSCR_Val & 7U) == 3U) /* Gear -> fc/8 */ #define __CORE_SYS (__CORE_CLK / 8U) #elif ((SYSCR_Val & 7U) == 4U) /* Gear -> fc/16 */ #define __CORE_SYS (__CORE_CLK / 16U) #else /* Gear -> reserved */ #define __CORE_SYS (0U) #endif /* Clock Variable definitions */ uint32_t SystemCoreClock = __CORE_SYS; /*!< System Clock Frequency (Core Clock) */ /** * Initialize the system * * @param none * @return none * * @brief Update SystemCoreClock according register values. */ void SystemCoreClockUpdate(void) { /* Get Core Clock Frequency */ uint32_t CoreClock = 0U; uint32_t CoreClockInput = 0U; uint32_t regval = 0U; uint32_t oscsel = 0U; uint32_t pll0sel = 0U; uint32_t pll0on = 0U; /* Determine clock frequency according to clock register values */ /* System clock is high-speed clock */ regval = TSB_CG->OSCCR; oscsel = regval & CG_OSCCR_OSCSEL_SET; if (oscsel) { /* If system clock is External high-speed oscillator freq */ CoreClock = EXTALH; } else { /* If system clock is Internal high-speed oscillator freq */ CoreClock = IXTALH; } regval = TSB_CG->PLL0SEL; pll0sel = regval & CG_PLL0SEL_PLL0SEL_SET; pll0on = regval & CG_PLL0SEL_PLL0ON_SET; if (pll0sel && pll0on) { /* If PLL enabled */ if (CoreClock == EOSC_6M) { /* If input is 6MHz */ if ((TSB_CG->PLL0SEL & PLL0SEL_MASK) == CG_6M_MUL_6_664_FPLL) { CoreClockInput = EOSC_6M_PLLON; /* output clock is 39.98MHz */ } else { CoreClockInput = 0U; /* fc -> reserved */ } } else if (CoreClock == EOSC_8M) { /* If input is 8MHz */ if ((TSB_CG->PLL0SEL & PLL0SEL_MASK) == CG_8M_MUL_5_FPLL) { CoreClockInput = EOSC_8M_PLLON; /* output clock is 40MHz */ } else { CoreClockInput = 0U; /* fc -> reserved */ } } else if (CoreClock == EOSC_10M) { /* If input is 10MHz */ if ((TSB_CG->PLL0SEL & PLL0SEL_MASK) == CG_10M_MUL_4_FPLL) { CoreClockInput = EOSC_10M_PLLON; /* output clock is 40MHz */ } else { CoreClockInput = 0U; /* fc -> reserved */ } } else if (CoreClock == EOSC_12M) { /* If input is 12MHz */ if ((TSB_CG->PLL0SEL & PLL0SEL_MASK) == CG_12M_MUL_3_328_FPLL) { CoreClockInput = EOSC_12M_PLLON; /* output clock is 39.94MHz */ } else { CoreClockInput = 0U; /* fc -> reserved */ } } else if (CoreClock == IOSC_10M) { /* If input is 10MHz */ if ((TSB_CG->PLL0SEL & PLL0SEL_MASK) == CG_10M_MUL_4_FPLL) { CoreClockInput = IOSC_10M_PLLON; /* output clock is 40MHz */ } else { CoreClockInput = 0U; /* fc -> reserved */ } } else { CoreClockInput = 0U; } } else { /* If PLL not used */ CoreClockInput = CoreClock; } switch (TSB_CG->SYSCR & 7U) { case 0U: /* Gear -> fc */ SystemCoreClock = CoreClockInput; break; case 1U: /* Gear -> fc/2 */ SystemCoreClock = CoreClockInput / 2U; break; case 2U: /* Gear -> fc/4 */ SystemCoreClock = CoreClockInput / 4U; break; case 3U: /* Gear -> fc/8 */ if (CoreClockInput >= EOSC_8M) { SystemCoreClock = CoreClockInput / 8U; } else { SystemCoreClock = 0U; } break; case 4U: /* Gear -> fc/16 */ if (CoreClockInput > EOSC_12M) { SystemCoreClock = CoreClockInput / 16U; } else { SystemCoreClock = 0U; } break; case 5U: case 6U: case 7U: SystemCoreClock = 0U; break; default: SystemCoreClock = 0U; break; } } /** * Initialize the system * * @param none * @return none * * @brief Setup the microcontroller system. * Initialize the System. */ void SystemInit(void) { #if (SIWD_SETUP) /* Watchdog Setup */ /* SIWD Disable */ TSB_SIWD0->EN = SIWDEN_Val; TSB_SIWD0->CR = SIWDCR_Val; #else /* SIWD Enable (Setting after a Reset) */ #endif #if (CLOCK_SETUP) /* Clock(external) Setup */ TSB_CG->SYSCR = SYSCR_Val; TSB_CG->WUPHCR = (WUPHCR_WUPT_EXT | CG_WUPHCR_WUCLK_SET); TSB_CG->OSCCR |= CG_OSCCR_EOSCEN_SET; TSB_CG->WUPHCR = (WUPHCR_WUPT_EXT | CG_WUPHCR_WUCLK_SET | CG_WUPHCR_WUON_START_SET); while (TSB_CG_WUPHCR_WUEF) { ; } /* Warm-up */ TSB_CG->OSCCR |= CG_OSCCR_OSCSEL_SET; while (!TSB_CG_OSCCR_OSCF) { ; } /* Confirm CGOSCCR="1" */ TSB_CG->OSCCR &= CG_OSCCR_IHOSC1EN_CLEAR ; #else /* Internal HOSC Enable (Setting after a Reset) */ #endif TSB_CG->WUPHCR = (WUPHCR_INIT_PLL | CG_WUPHCR_WUCLK_SET); TSB_CG->PLL0SEL &= CG_PLL0SEL_PLL0SEL_CLEAR; /* PLL-->fOsc */ TSB_CG->PLL0SEL &= CG_PLL0SEL_PLL0ON_CLEAR; TSB_CG->PLL0SEL = PLL0SEL_Ready; TSB_CG->WUPHCR = (WUPHCR_INIT_PLL | CG_WUPHCR_WUCLK_SET | CG_WUPHCR_WUON_START_SET); while (TSB_CG_WUPHCR_WUEF) { ; } /* Warm-up */ TSB_CG->WUPHCR = (WUPHCR_LUPT_PLL | CG_WUPHCR_WUCLK_SET); TSB_CG->PLL0SEL |= CG_PLL0SEL_PLL0ON_SET; /* PLL enabled */ TSB_CG->STBYCR = STBYCR_Val; TSB_CG->WUPHCR = (WUPHCR_LUPT_PLL | CG_WUPHCR_WUCLK_SET | CG_WUPHCR_WUON_START_SET); while (TSB_CG_WUPHCR_WUEF) { ; } /* Lockup */ TSB_CG->PLL0SEL |= CG_PLL0SEL_PLL0SEL_SET; while (!TSB_CG_PLL0SEL_PLL0ST) { ; } /*Confirm CGPLL0SEL = "1" */ }