/*!
* @brief Example function to show how to change from PEE to BLPE mode.
* MCG transition: PEE -> FBE -> BLPE
*/
void APP_ChangePeeToBlpeExample(void)
{
/* Quick change PEE -> FBE */
CLOCK_ExternalModeToFbeModeQuick();
assert(kMCG_ModeFBE == CLOCK_GetMode());
/* Change FBE -> BLPE */
CLOCK_SetLowPowerEnable(true);
assert(kMCG_ModeBLPE == CLOCK_GetMode());
}
/*!
* @brief Example function to show how to change from PEE to BLPI mode.
* MCG transition: PEE ->FBE -> FBI -> BLPI
*/
void APP_ChangePeeToBlpiExample(void)
{
/* Quick change PEE ->FBE */
CLOCK_ExternalModeToFbeModeQuick();
assert(kMCG_ModeFBE == CLOCK_GetMode());
/* Change FBE -> FBI
* It's transitional mode, don't need to wait for FLL stable
* so NULL is passed as variable here.
*/
CLOCK_SetFbiMode(kMCG_DrsLow, NULL);
assert(kMCG_ModeFBI == CLOCK_GetMode());
/* Change FBI -> BLPI */
CLOCK_SetLowPowerEnable(true);
assert(kMCG_ModeBLPI == CLOCK_GetMode());
}
status_t CLOCK_SetMcgConfig(const mcg_config_t *config)
{
mcg_mode_t next_mode;
status_t status = kStatus_Success;
mcg_pll_clk_select_t pllcs = kMCG_PllClkSelPll0;
/* If need to change external clock, MCG_C7[OSCSEL]. */
if (MCG_C7_OSCSEL_VAL != config->oscsel)
{
/* If external clock is in use, change to FEI first. */
if (!(MCG->S & MCG_S_IRCST_MASK))
{
CLOCK_ExternalModeToFbeModeQuick();
CLOCK_SetFeiMode(config->dmx32, config->drs, (void (*)(void))0);
}
CLOCK_SetExternalRefClkConfig(config->oscsel);
}
/* Re-configure MCGIRCLK, if MCGIRCLK is used as system clock source, then change to FEI/PEI first. */
if (MCG_S_CLKST_VAL == kMCG_ClkOutStatInt)
{
MCG->C2 &= ~MCG_C2_LP_MASK; /* Disable lowpower. */
{
CLOCK_SetFeiMode(config->dmx32, config->drs, CLOCK_FllStableDelay);
}
}
/* Configure MCGIRCLK. */
CLOCK_SetInternalRefClkConfig(config->irclkEnableMode, config->ircs, config->fcrdiv);
next_mode = CLOCK_GetMode();
do
{
next_mode = mcgModeMatrix[next_mode][config->mcgMode];
switch (next_mode)
{
case kMCG_ModeFEI:
status = CLOCK_SetFeiMode(config->dmx32, config->drs, CLOCK_FllStableDelay);
break;
case kMCG_ModeFEE:
status = CLOCK_SetFeeMode(config->frdiv, config->dmx32, config->drs, CLOCK_FllStableDelay);
break;
case kMCG_ModeFBI:
status = CLOCK_SetFbiMode(config->dmx32, config->drs, (void (*)(void))0);
break;
case kMCG_ModeFBE:
status = CLOCK_SetFbeMode(config->frdiv, config->dmx32, config->drs, (void (*)(void))0);
break;
case kMCG_ModeBLPI:
status = CLOCK_SetBlpiMode();
break;
case kMCG_ModeBLPE:
status = CLOCK_SetBlpeMode();
break;
case kMCG_ModePBE:
/* If target mode is not PBE or PEE, then only need to set CLKS = EXT here. */
if ((kMCG_ModePEE == config->mcgMode) || (kMCG_ModePBE == config->mcgMode))
{
{
status = CLOCK_SetPbeMode(pllcs, &config->pll0Config);
}
}
else
{
MCG->C1 = ((MCG->C1 & ~MCG_C1_CLKS_MASK) | MCG_C1_CLKS(kMCG_ClkOutSrcExternal));
while (MCG_S_CLKST_VAL != kMCG_ClkOutStatExt)
{
}
}
break;
case kMCG_ModePEE:
status = CLOCK_SetPeeMode();
break;
default:
break;
}
if (kStatus_Success != status)
{
return status;
}
} while (next_mode != config->mcgMode);
if (config->pll0Config.enableMode & kMCG_PllEnableIndependent)
{
CLOCK_EnablePll0(&config->pll0Config);
}
else
{
MCG->C5 &= ~(uint32_t)kMCG_PllEnableIndependent;
}
return kStatus_Success;
}
status_t CLOCK_SetMcgConfig(const mcg_config_t *config)
{
mcg_mode_t next_mode;
status_t status = kStatus_Success;
/* If need to change external clock, MCG_C7[OSCSEL]. */
if (MCG_C7_OSCSEL_VAL != config->oscsel)
{
/* If external clock is in use, change to FEI first. */
if (!(MCG->S & MCG_S_IRCST_MASK))
{
CLOCK_ExternalModeToFbeModeQuick();
CLOCK_SetFeiMode(config->dmx32, config->drs, (void (*)(void))0);
}
CLOCK_SetExternalRefClkConfig(config->oscsel);
}
/* Re-configure MCGIRCLK, if MCGIRCLK is used as system clock source, then change to FEI/PEI first. */
if (MCG_S_CLKST_VAL == kMCG_ClkOutStatInt)
{
MCG->C2 &= ~MCG_C2_LP_MASK; /* Disable lowpower. */
{
CLOCK_SetFeiMode(config->dmx32, config->drs, CLOCK_FllStableDelay);
}
}
/* Configure MCGIRCLK. */
CLOCK_SetInternalRefClkConfig(config->irclkEnableMode, config->ircs, config->fcrdiv);
next_mode = CLOCK_GetMode();
do
{
next_mode = mcgModeMatrix[next_mode][config->mcgMode];
switch (next_mode)
{
case kMCG_ModeFEI:
status = CLOCK_SetFeiMode(config->dmx32, config->drs, CLOCK_FllStableDelay);
break;
case kMCG_ModeFEE:
status = CLOCK_SetFeeMode(config->frdiv, config->dmx32, config->drs, CLOCK_FllStableDelay);
break;
case kMCG_ModeFBI:
status = CLOCK_SetFbiMode(config->dmx32, config->drs, (void (*)(void))0);
break;
case kMCG_ModeFBE:
status = CLOCK_SetFbeMode(config->frdiv, config->dmx32, config->drs, (void (*)(void))0);
break;
case kMCG_ModeBLPI:
status = CLOCK_SetBlpiMode();
break;
case kMCG_ModeBLPE:
status = CLOCK_SetBlpeMode();
break;
default:
break;
}
if (kStatus_Success != status)
{
return status;
}
} while (next_mode != config->mcgMode);
return kStatus_Success;
}