CRYOTIMER - Ultra Low Energy Timer

Description

Ultra Low Energy Timer/Counter (CRYOTIMER) Peripheral API.

The CRYOTIMER is a 32 bit counter which operates on a low-frequency oscillator and is capable of running in all Energy Modes. It can provide periodic wakeup events and PRS signals which can be used to wake up peripherals from any energy mode. The CRYOTIMER provides a very wide range of periods for the interrupts facilitating flexible ultra-low energy operation. Because of its simplicity, the CRYOTIMER is a lower energy solution for periodically waking up the MCU compared to the RTCC.

To configure the CRYOTIMER, call the CRYOTIMER_Init function. This function will configure the CRYOTIMER peripheral according to the user configuration.

When using the CRYOTIMER, choose which oscillator to use as the CRYOTIMER clock. The CRYOTIMER supports 3 low-frequency clocks LFXO, LFRCO, and ULFRCO. The oscillator that is chosen must be enabled and ready before calling this CRYOTIMER_Init function. See CMU_OscillatorEnable for details of how to enable and wait for an oscillator to become ready. Note that ULFRCO is always ready while LFRCO cmuOsc_LFRCO and LFXO cmuOsc_LFXO must be enabled by the user.

Note that the only oscillator which is running in EM3 is ULFRCO. Keep this in mind when choosing which oscillator to use for the CRYOTIMER.

This example shows how to use the CRYOTIMER to generate an interrupt at a configurable period.

/* Enable clock to CRYOTIMER module */
/* Configure the CRYOTIMER to use the ULFRCO which is running at 1 KHz
* and trigger an interrupt every 128/1000 = 0,128s using the period
* interrupt. */
/* Now we enable the period interrupt in the CRYOTIMER and we enable
* the CRYOTIMER IRQ in the NVIC. */
CRYOTIMER_IntEnable (CRYOTIMER_IEN_PERIOD);
NVIC_EnableIRQ(CRYOTIMER_IRQn);

To use the CRYOTIMER in EM4, enable EM4 wakeup in the CRYOTIMER. This can be done either in the CRYOTIMER_Init_TypeDef structure when initializing the CRYOTIMER or at a later time by using CRYOTIMER_EM4WakeupEnable .

Note that when using the CRYOTIMER to wake up from EM4, the application has the responsibility to clear the wakeup event. This is done by calling CRYOTIMER_IntClear . If the user does not clear the wakeup event, the wakeup event will stay pending and will cause an immediate wakeup the next time the application attempts to enter EM4.

This example shows how to use the CRYOTIMER to wake up from EM4 after a configurable amount of time.

/* Enable clock to CRYOTIMER module */
/* Configure the CRYOTIMER to use the ULFRCO which is running at 1 KHz
* and trigger an EM4 wakeup every 1024/1000 = 1,024s. */
init. em4Wakeup = true ;

All the low frequency oscillators can be used in EM4, however, the oscillator that is used must be be configured to be retained when going into EM4. This can be configured by using functions in the EMU - Energy Management Unit module. See EMU_EM4Init and EMU_EM4Init_TypeDef . If an oscillator is retained in EM4, the user is also responsible for unlatching the retained configuration on a wakeup from EM4.

Data Structures

struct CRYOTIMER_Init_TypeDef
CRYOTIMER initialization structure.

Functions

void CRYOTIMER_IntClear (uint32_t flags)
Clear the CRYOTIMER period interrupt.
uint32_t CRYOTIMER_IntGet (void)
Get the CRYOTIMER interrupt flag.
uint32_t CRYOTIMER_IntGetEnabled (void)
Get enabled and pending CRYOTIMER interrupt flags.
void CRYOTIMER_IntEnable (uint32_t flags)
Enable one or more CRYOTIMER interrupts.
void CRYOTIMER_IntDisable (uint32_t flags)
Disable one or more CRYOTIMER interrupts.
void CRYOTIMER_IntSet (uint32_t flags)
Set the CRYOTIMER period interrupt flag.
void CRYOTIMER_PeriodSet (uint32_t period)
Set the CRYOTIMER period select.
uint32_t CRYOTIMER_PeriodGet (void)
Get the CRYOTIMER period select value.
uint32_t CRYOTIMER_CounterGet (void)
Get the CRYOTIMER counter value.
void CRYOTIMER_EM4WakeupEnable (bool enable)
Enable/disable EM4 wakeup capability.
void CRYOTIMER_Enable (bool enable)
Enable/disable the CRYOTIMER.
void CRYOTIMER_Init (const CRYOTIMER_Init_TypeDef *init)
Initialize the CRYOTIMER.

Macros

#define CRYOTIMER_INIT_DEFAULT
Default CRYOTIMER init structure.

Enumerations

enum CRYOTIMER_Presc_TypeDef {
cryotimerPresc_1 = _CRYOTIMER_CTRL_PRESC_DIV1,
cryotimerPresc_2 = _CRYOTIMER_CTRL_PRESC_DIV2,
cryotimerPresc_4 = _CRYOTIMER_CTRL_PRESC_DIV4,
cryotimerPresc_8 = _CRYOTIMER_CTRL_PRESC_DIV8,
cryotimerPresc_16 = _CRYOTIMER_CTRL_PRESC_DIV16,
cryotimerPresc_32 = _CRYOTIMER_CTRL_PRESC_DIV32,
cryotimerPresc_64 = _CRYOTIMER_CTRL_PRESC_DIV64,
cryotimerPresc_128 = _CRYOTIMER_CTRL_PRESC_DIV128
}
Prescaler selection.
enum CRYOTIMER_Osc_TypeDef {
cryotimerOscLFRCO = _CRYOTIMER_CTRL_OSCSEL_LFRCO,
cryotimerOscLFXO = _CRYOTIMER_CTRL_OSCSEL_LFXO,
cryotimerOscULFRCO = _CRYOTIMER_CTRL_OSCSEL_ULFRCO
}
Low frequency oscillator selection.
enum CRYOTIMER_Period_TypeDef {
cryotimerPeriod_1 = 0,
cryotimerPeriod_2 = 1,
cryotimerPeriod_4 = 2,
cryotimerPeriod_8 = 3,
cryotimerPeriod_16 = 4,
cryotimerPeriod_32 = 5,
cryotimerPeriod_64 = 6,
cryotimerPeriod_128 = 7,
cryotimerPeriod_256 = 8,
cryotimerPeriod_512 = 9,
cryotimerPeriod_1k = 10,
cryotimerPeriod_2k = 11,
cryotimerPeriod_4k = 12,
cryotimerPeriod_8k = 13,
cryotimerPeriod_16k = 14,
cryotimerPeriod_32k = 15,
cryotimerPeriod_64k = 16,
cryotimerPeriod_128k = 17,
cryotimerPeriod_256k = 18,
cryotimerPeriod_512k = 19,
cryotimerPeriod_1m = 20,
cryotimerPeriod_2m = 21,
cryotimerPeriod_4m = 22,
cryotimerPeriod_8m = 23,
cryotimerPeriod_16m = 24,
cryotimerPeriod_32m = 25,
cryotimerPeriod_64m = 26,
cryotimerPeriod_128m = 27,
cryotimerPeriod_256m = 28,
cryotimerPeriod_512m = 29,
cryotimerPeriod_1024m = 30,
cryotimerPeriod_2048m = 31,
cryotimerPeriod_4096m = 32
}
Period selection value.

Function Documentation

CRYOTIMER_IntClear()

void CRYOTIMER_IntClear ( uint32_t flags )
inline

Clear the CRYOTIMER period interrupt.

Parameters
[in] flags CRYOTIMER interrupt sources to clear. Use CRYOTIMER_IFC_PERIOD.

CRYOTIMER_IntGet()

uint32_t CRYOTIMER_IntGet ( void )
inline

Get the CRYOTIMER interrupt flag.

Note
This function does not clear event bits.
Returns
Pending CRYOTIMER interrupt sources. The only interrupt source available for the CRYOTIMER is CRYOTIMER_IF_PERIOD.

CRYOTIMER_IntGetEnabled()

uint32_t CRYOTIMER_IntGetEnabled ( void )
inline

Get enabled and pending CRYOTIMER interrupt flags.

Useful for handling more interrupt sources in the same interrupt handler.

Note
This function does not clear interrupt flags.
Returns
Pending and enabled CRYOTIMER interrupt sources. The return value is the bitwise AND of
  • the enabled interrupt sources in CRYOTIMER_IEN and
  • the pending interrupt flags CRYOTIMER_IF

CRYOTIMER_IntEnable()

void CRYOTIMER_IntEnable ( uint32_t flags )
inline

Enable one or more CRYOTIMER interrupts.

Parameters
[in] flags CRYOTIMER interrupt sources to enable. Use CRYOTIMER_IEN_PERIOD.

CRYOTIMER_IntDisable()

void CRYOTIMER_IntDisable ( uint32_t flags )
inline

Disable one or more CRYOTIMER interrupts.

Parameters
[in] flags CRYOTIMER interrupt sources to disable. Use CRYOTIMER_IEN_PERIOD.

CRYOTIMER_IntSet()

void CRYOTIMER_IntSet ( uint32_t flags )
inline

Set the CRYOTIMER period interrupt flag.

Note
Writes 1 to the interrupt flag set register.
Parameters
[in] flags CRYOTIMER interrupt sources to set to pending. Use CRYOTIMER_IFS_PERIOD.

CRYOTIMER_PeriodSet()

void CRYOTIMER_PeriodSet ( uint32_t period )
inline

Set the CRYOTIMER period select.

Note
Sets the duration between the interrupts/wakeup events based on the pre-scaled clock.
Parameters
[in] period 2^period is the number of clock cycles before a wakeup event or interrupt is triggered. The CRYOTIMER_Periodsel_TypeDef enumeration can be used a convenience type when calling this function.

CRYOTIMER_PeriodGet()

uint32_t CRYOTIMER_PeriodGet ( void )
inline

Get the CRYOTIMER period select value.

Note
Gets the duration between the interrupts/wakeup events in the CRYOTIMER.
Returns
Duration between the interrupts/wakeup events. Returns the value of the PERIODSEL register. The number of clock cycles can be calculated as the 2^n where n is the return value of this function.

CRYOTIMER_CounterGet()

uint32_t CRYOTIMER_CounterGet ( void )
inline

Get the CRYOTIMER counter value.

Returns
Returns the current CRYOTIMER counter value.

CRYOTIMER_EM4WakeupEnable()

void CRYOTIMER_EM4WakeupEnable ( bool enable )
inline

Enable/disable EM4 wakeup capability.

Parameters
[in] enable True to enable EM4 wakeup, false to disable.

CRYOTIMER_Enable()

void CRYOTIMER_Enable ( bool enable )
inline

Enable/disable the CRYOTIMER.

Parameters
[in] enable True to enable the CRYOTIMER, false to disable.

CRYOTIMER_Init()

void CRYOTIMER_Init ( const CRYOTIMER_Init_TypeDef * init )

Initialize the CRYOTIMER.

Use this function to initialize the CRYOTIMER. Select a prescaler setting and select a low-frequency oscillator. See the configuration structure CRYOTIMER_Init_TypeDef for more details.

Parameters
[in] init A pointer to the initialization structure.

Macro Definition Documentation

CRYOTIMER_INIT_DEFAULT

#define CRYOTIMER_INIT_DEFAULT
Value:
{ \
true, /* Start counting when the initialization is done. */ \
false, /* Disable CRYOTIMER during debug halt. */ \
false, /* Disable EM4 wakeup. */ \
cryotimerOscLFRCO, /* Select Low Frequency RC Oscillator. */ \
cryotimerPresc_1, /* LF Oscillator frequency undivided. */ \
cryotimerPeriod_4096m, /* Wakeup event after 4096 M pre-scaled clock cycles. */ \
}

Default CRYOTIMER init structure.

Enumeration Type Documentation

CRYOTIMER_Presc_TypeDef

Prescaler selection.

Enumerator
cryotimerPresc_1

Divide clock by 1.

cryotimerPresc_2

Divide clock by 2.

cryotimerPresc_4

Divide clock by 4.

cryotimerPresc_8

Divide clock by 8.

cryotimerPresc_16

Divide clock by 16.

cryotimerPresc_32

Divide clock by 32.

cryotimerPresc_64

Divide clock by 64.

cryotimerPresc_128

Divide clock by 128.

CRYOTIMER_Osc_TypeDef

Low frequency oscillator selection.

Enumerator
cryotimerOscLFRCO

Select Low-frequency RC Oscillator.

cryotimerOscLFXO

Select Low-frequency Crystal Oscillator.

cryotimerOscULFRCO

Select Ultra Low Frequency RC Oscillator.

CRYOTIMER_Period_TypeDef

Period selection value.

Enumerator
cryotimerPeriod_1

Wakeup event after every Pre-scaled clock cycle.

cryotimerPeriod_2

Wakeup event after 2 Pre-scaled clock cycles.

cryotimerPeriod_4

Wakeup event after 4 Pre-scaled clock cycles.

cryotimerPeriod_8

Wakeup event after 8 Pre-scaled clock cycles.

cryotimerPeriod_16

Wakeup event after 16 Pre-scaled clock cycles.

cryotimerPeriod_32

Wakeup event after 32 Pre-scaled clock cycles.

cryotimerPeriod_64

Wakeup event after 64 Pre-scaled clock cycles.

cryotimerPeriod_128

Wakeup event after 128 Pre-scaled clock cycles.

cryotimerPeriod_256

Wakeup event after 256 Pre-scaled clock cycles.

cryotimerPeriod_512

Wakeup event after 512 Pre-scaled clock cycles.

cryotimerPeriod_1k

Wakeup event after 1k Pre-scaled clock cycles.

cryotimerPeriod_2k

Wakeup event after 2k Pre-scaled clock cycles.

cryotimerPeriod_4k

Wakeup event after 4k Pre-scaled clock cycles.

cryotimerPeriod_8k

Wakeup event after 8k Pre-scaled clock cycles.

cryotimerPeriod_16k

Wakeup event after 16k Pre-scaled clock cycles.

cryotimerPeriod_32k

Wakeup event after 32k Pre-scaled clock cycles.

cryotimerPeriod_64k

Wakeup event after 64k Pre-scaled clock cycles.

cryotimerPeriod_128k

Wakeup event after 128k Pre-scaled clock cycles.

cryotimerPeriod_256k

Wakeup event after 256k Pre-scaled clock cycles.

cryotimerPeriod_512k

Wakeup event after 512k Pre-scaled clock cycles.

cryotimerPeriod_1m

Wakeup event after 1m Pre-scaled clock cycles.

cryotimerPeriod_2m

Wakeup event after 2m Pre-scaled clock cycles.

cryotimerPeriod_4m

Wakeup event after 4m Pre-scaled clock cycles.

cryotimerPeriod_8m

Wakeup event after 8m Pre-scaled clock cycles.

cryotimerPeriod_16m

Wakeup event after 16m Pre-scaled clock cycles.

cryotimerPeriod_32m

Wakeup event after 32m Pre-scaled clock cycles.

cryotimerPeriod_64m

Wakeup event after 64m Pre-scaled clock cycles.

cryotimerPeriod_128m

Wakeup event after 128m Pre-scaled clock cycles.

cryotimerPeriod_256m

Wakeup event after 256m Pre-scaled clock cycles.

cryotimerPeriod_512m

Wakeup event after 512m Pre-scaled clock cycles.

cryotimerPeriod_1024m

Wakeup event after 1024m Pre-scaled clock cycles.

cryotimerPeriod_2048m

Wakeup event after 2048m Pre-scaled clock cycles.

cryotimerPeriod_4096m

Wakeup event after 4096m Pre-scaled clock cycles.