Пример #1
0
/**
 * @brief	main routine for ATIMER example
 * @return	Nothing (function should not exit)
 */
int main(void)
{
	bool On = false;

	SystemCoreClockUpdate();
	Board_Init();

	/* Init Alarm Timer with Preset Count for about 1s */
	Chip_ATIMER_Init(LPC_ATIMER, PresetCount);

	/* Init EVRT */
	Chip_EVRT_Init();

	/* Enable EVRT in order to be able to read the ATIMER interrupt */
	Chip_EVRT_ConfigIntSrcActiveType(EVRT_SRC_ATIMER, EVRT_SRC_ACTIVE_HIGH_LEVEL);

	/* Enable Alarm Timer Source */
	Chip_EVRT_SetUpIntSrc(EVRT_SRC_ATIMER, ENABLE);

	/* Enable NVIC */
	NVIC_EnableIRQ(EVENTROUTER_IRQn);

	/* Clear the interrupt states */
	ATIMER_ClearInts();

	/* Enable Alarm Timer */
	Chip_ATIMER_IntEnable(LPC_ATIMER);

	while (1) {
		/* Sleep until ATIMER fires */
		__WFI();
		On = (bool) !On;
		Board_LED_Set(1, On);
	}
}
Пример #2
0
/**
 * Event Router configure function
 */
static void PMC_Evrt_Configure(CHIP_EVRT_SRC_T Evrt_Src)
{
	/* Configure Interrupt signal from Evrt_Src pin to EVRT */
	Chip_EVRT_ConfigIntSrcActiveType(Evrt_Src, EVRT_SRC_ACTIVE_RISING_EDGE);

	/* Enable interrupt signal from Evrt_Src pin to EVRT */
	Chip_EVRT_SetUpIntSrc(Evrt_Src, ENABLE);

	/* Clear any pending interrupt */
	Chip_EVRT_ClrPendIntSrc(Evrt_Src);

	/* Disable EVRT interrupt in NVIC */
	NVIC_DisableIRQ(EVENTROUTER_IRQn);

	/* preemption = 1, sub-priority = 1 */
	NVIC_SetPriority(EVENTROUTER_IRQn, ((0x01 << 3) | 0x01));

	/* Enable Event Router interrupt in NVIC */
	NVIC_EnableIRQ(EVENTROUTER_IRQn);
}
Пример #3
0
/**
 * Power State handler function
 */
static void PMC_PwrState_Handler(uint8_t buffer, uint8_t Wake_RTC)
{
	CHIP_EVRT_SRC_T Evrt_Src;
	CHIP_PMC_PWR_STATE_T Pwr_state;
	uint8_t confirm = 0xFF;

	if (Wake_RTC) {
		/* Configure EVRT_SRC_RTC as wake up signal */
		Evrt_Src = EVRT_SRC_RTC;

		/* Disable interrupt signal from Evrt_Src pin to EVRT */
		Chip_EVRT_SetUpIntSrc(Evrt_Src, DISABLE);

		/* Initialize and configure RTC */
		Chip_RTC_Init(LPC_RTC);
		Chip_RTC_ResetClockTickCounter(LPC_RTC);
		Chip_RTC_SetTime(LPC_RTC, RTC_TIMETYPE_SECOND, 0);

		/* Set alarm time = RTC_ALARM_TIME seconds.
		 * So after each RTC_ALARM_TIME seconds, RTC will generate and wake-up system
		 */
		Chip_RTC_SetAlarmTime(LPC_RTC, RTC_TIMETYPE_SECOND, RTC_ALARM_TIME);
		Chip_RTC_CntIncrIntConfig(LPC_RTC, RTC_AMR_CIIR_IMSEC, DISABLE);

		/* Set the AMR for RTC_ALARM_TIME match alarm interrupt */
		Chip_RTC_AlarmIntConfig(LPC_RTC, RTC_AMR_CIIR_IMSEC, ENABLE);
		Chip_RTC_ClearIntPending(LPC_RTC, RTC_INT_ALARM);
	}
	else {
		Evrt_Src = EVRT_SRC_WAKEUP0;
	}

	/* Configure wake up signal */
	PMC_Evrt_Configure(Evrt_Src);

	/* Get confirmation from user to continue
	 * Print wake up signal information to user
	 */
	DEBUGOUT(menu3);
	while ( (confirm != 'C') && (confirm != 'c')) {
		confirm = DEBUGIN();
	}

	switch (buffer) {
	case '1':
		DEBUGOUT("Entering 'Sleep' state ...\r\n");
		if (Wake_RTC) {
			DEBUGOUT("Wait for %d seconds, RTC alarm will wake up from 'Sleep' mode \r\n", RTC_ALARM_TIME);
			Chip_RTC_Enable(LPC_RTC, ENABLE);
		}
		else {
			DEBUGOUT("Press WAKEUP0 button/Connect WAKEUP0 pin to 3.3V to exit 'Sleep' mode \r\n");
		}
		Chip_PMC_Sleep();
		Chip_RTC_DeInit(LPC_RTC);
		DEBUGOUT("Woken up \r\n");
		break;

	case '2':
		DEBUGOUT("Entering 'Deep Sleep' state ...\r\n");
		if (Wake_RTC) {
			DEBUGOUT("Wait for %d seconds, RTC alarm will wake up from 'Deep Sleep' mode \r\n", RTC_ALARM_TIME);
			Chip_RTC_Enable(LPC_RTC, ENABLE);
		}
		else {
			DEBUGOUT("Press WAKEUP0 button/Connect WAKEUP0 pin to 3.3V to exit 'Deep Sleep' mode \r\n");
		}
		Pwr_state = PMC_DeepSleep;

		/* Call Pre SleepPowerDown function */
		PMC_Pre_SleepPowerDown();

		/* Goto Deep Sleep mode */
		Chip_PMC_Set_PwrState(Pwr_state);

		/* Call Post Wake up Initialisation function */
		PMC_Post_Wakeup(buffer);
		DEBUGOUT("\r\nWoken up \r\n");
		break;

	case '3':
		DEBUGOUT("Entering 'Power Down' state ...\r\n");
		if (Wake_RTC) {
			DEBUGOUT("Wait for %d seconds, RTC alarm will wake up from 'Power Down' mode \r\n", RTC_ALARM_TIME);
			Chip_RTC_Enable(LPC_RTC, ENABLE);
		}
		else {
			DEBUGOUT("Press WAKEUP0 button/Connect WAKEUP0 pin to 3.3V to exit 'Power Down' mode \r\n");
		}
		Pwr_state = PMC_PowerDown;

		/* Call Pre SleepPowerDown function */
		PMC_Pre_SleepPowerDown();

		/* Goto Deep Sleep mode */
		Chip_PMC_Set_PwrState(Pwr_state);

		/* Call Post Wake up Initialisation function */
		PMC_Post_Wakeup(buffer);

		DEBUGOUT("\r\nWoken up \r\n");
		break;

	case '4':
		DEBUGOUT("Entering 'Deep Power Down' state ...\r\n");
		if (Wake_RTC) {
			DEBUGOUT("Wait for %d seconds, RTC alarm will wake up from 'Deep Power Down' mode \r\n", RTC_ALARM_TIME);
			Chip_RTC_Enable(LPC_RTC, ENABLE);
		}
		else {
			DEBUGOUT("Press WAKEUP0 button/Connect WAKEUP0 pin to 3.3V to exit 'Deep Power Down' mode \r\n");
		}
		Pwr_state = PMC_DeepPowerDown;

		/* Call Pre SleepPowerDown function */
		PMC_Pre_SleepPowerDown();

		/* Goto Deep Sleep mode */
		Chip_PMC_Set_PwrState(Pwr_state);

		/* Wake up from Deep power down state is as good as RESET */
		while (1) {}
		break;

	default:
		break;
	}
}