EMU - Energy Management Unit
Description
Energy Management Unit (EMU) Peripheral API.
This module contains functions to control the EMU peripheral of Silicon Labs 32-bit MCUs and SoCs. The EMU handles the different low energy modes in Silicon Labs microcontrollers.
Data Structures |
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struct | EMU_EM01Init_TypeDef |
EM0 and 1 initialization structure.
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struct | EMU_EM23Init_TypeDef |
EM2 and 3 initialization structure.
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struct | EMU_EM4Init_TypeDef |
EM4 initialization structure.
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struct | EMU_DCDCInit_TypeDef |
DCDC initialization structure.
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struct | EMU_VmonInit_TypeDef |
VMON initialization structure.
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struct | EMU_VmonHystInit_TypeDef |
VMON Hysteresis initialization structure.
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Functions |
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void | EMU_EM23PresleepHook (void) |
Energy mode 2/3 pre-sleep hook function.
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void | EMU_EM23PostsleepHook (void) |
Energy mode 2/3 post-sleep hook function.
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void | EMU_EnterEM2 (bool restore) |
Enter energy mode 2 (EM2).
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void | EMU_EnterEM3 (bool restore) |
Enter energy mode 3 (EM3).
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void | EMU_Save (void) |
Save the CMU HF clock select state, oscillator enable, and voltage scaling (if available) before
EMU_EnterEM2()
or
EMU_EnterEM3()
are called with the restore parameter set to false.
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void | EMU_Restore (void) |
Restore CMU HF clock select state, oscillator enable, and voltage scaling (if available) after
EMU_EnterEM2()
or
EMU_EnterEM3()
are called with the restore parameter set to false.
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void | EMU_EnterEM4 (void) |
Enter energy mode 4 (EM4).
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void | EMU_EnterEM4H (void) |
Enter energy mode 4 hibernate (EM4H).
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void | EMU_EnterEM4S (void) |
Enter energy mode 4 shutoff (EM4S).
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void | EMU_MemPwrDown (uint32_t blocks) |
Power down memory block.
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void | EMU_RamPowerDown (uint32_t start, uint32_t end) |
Power down RAM memory blocks.
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void | EMU_RamPowerUp (void) |
Power up all available RAM memory blocks.
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void | EMU_PeripheralRetention ( EMU_PeripheralRetention_TypeDef periMask, bool enable) |
Set EM2 3 peripheral retention control.
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void | EMU_UpdateOscConfig (void) |
Update EMU module with CMU oscillator selection/enable status.
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void | EMU_VScaleEM01ByClock (uint32_t clockFrequency, bool wait) |
Voltage scale in EM0 and 1 by clock frequency.
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void | EMU_VScaleEM01 ( EMU_VScaleEM01_TypeDef voltage, bool wait) |
Force voltage scaling in EM0 and 1 to a specific voltage level.
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void | EMU_EM01Init (const EMU_EM01Init_TypeDef *em01Init) |
Update the EMU module with Energy Mode 0 and 1 configuration.
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void | EMU_EM23Init (const EMU_EM23Init_TypeDef *em23Init) |
Update the EMU module with Energy Mode 2 and 3 configuration.
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void | EMU_EM4Init (const EMU_EM4Init_TypeDef *em4Init) |
Update the EMU module with Energy Mode 4 configuration.
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void | EMU_DCDCModeSet ( EMU_DcdcMode_TypeDef dcdcMode) |
Set DCDC regulator operating mode.
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void | EMU_DCDCConductionModeSet ( EMU_DcdcConductionMode_TypeDef conductionMode, bool rcoDefaultSet) |
Set DCDC LN regulator conduction mode.
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bool | EMU_DCDCInit (const EMU_DCDCInit_TypeDef *dcdcInit) |
Configure the DCDC regulator.
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bool | EMU_DCDCOutputVoltageSet (uint32_t mV, bool setLpVoltage, bool setLnVoltage) |
Set the DCDC output voltage.
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void | EMU_DCDCOptimizeSlice (uint32_t em0LoadCurrentmA) |
Optimize the DCDC slice count based on the estimated average load current in EM0.
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void | EMU_DCDCLnRcoBandSet ( EMU_DcdcLnRcoBand_TypeDef band) |
Set DCDC Low-noise RCO band.
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bool | EMU_DCDCPowerOff (void) |
Power off the DCDC regulator.
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void | EMU_VmonInit (const EMU_VmonInit_TypeDef *vmonInit) |
Initialize a VMON channel.
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void | EMU_VmonHystInit (const EMU_VmonHystInit_TypeDef *vmonInit) |
Initialize a VMON channel with hysteresis (separate rise and fall triggers).
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void | EMU_VmonEnable ( EMU_VmonChannel_TypeDef channel, bool enable) |
Enable or disable a VMON channel.
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bool | EMU_VmonChannelStatusGet ( EMU_VmonChannel_TypeDef channel) |
Get the status of a voltage monitor channel.
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float | EMU_TemperatureGet (void) |
Get temperature in degrees Celcius.
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bool | EMU_LDOStatusGet (void) |
Check status of the internal LDO regulator.
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void | EMU_EnterEM1 (void) |
Enter energy mode 1 (EM1).
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void | EMU_VScaleWait (void) |
Wait for voltage scaling to complete.
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EMU_VScaleEM01_TypeDef | EMU_VScaleGet (void) |
Get current voltage scaling level.
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bool | EMU_VmonStatusGet (void) |
Get the status of the voltage monitor (VMON).
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void | EMU_IntClear (uint32_t flags) |
Clear one or more pending EMU interrupts.
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void | EMU_IntDisable (uint32_t flags) |
Disable one or more EMU interrupts.
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void | EMU_IntEnable (uint32_t flags) |
Enable one or more EMU interrupts.
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uint32_t | EMU_IntGet (void) |
Get pending EMU interrupt flags.
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uint32_t | EMU_IntGetEnabled (void) |
Get enabled and pending EMU interrupt flags.
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void | EMU_IntSet (uint32_t flags) |
Set one or more pending EMU interrupts.
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void | EMU_Lock (void) |
Lock EMU registers in order to protect them against unintended modification.
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void | EMU_Unlock (void) |
Unlock the EMU so that writing to locked registers again is possible.
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void | EMU_PowerLock (void) |
Lock the EMU regulator control registers in order to protect against unintended modification.
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void | EMU_PowerUnlock (void) |
Unlock the EMU power control registers so that writing to locked registers again is possible.
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void | EMU_EM2Block (void) |
Block entering EM2 or higher number energy modes.
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void | EMU_EM2UnBlock (void) |
Unblock entering EM2 or higher number energy modes.
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void | EMU_UnlatchPinRetention (void) |
When EM4 pin retention is set to emuPinRetentionLatch, then pins are retained through EM4 entry and wakeup.
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bool | EMU_TemperatureReady (void) |
Temperature measurement ready status.
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Macros |
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#define | EMU_TEMPCO_CONST (0.273f) |
As we do not know what energy mode a temperature measurement was taken at, we choose a constant for the TEMPCO calculation that is midway between the EM0/EM1 constant and the EM2/EM3/EM4 constant.
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#define | EMU_VSCALE_PRESENT |
Voltage scaling present.
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#define | emuDcdcLnHighEfficiency -1 |
High efficiency mode.
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#define | emuDcdcLnFastTransient 160 |
Default reverse current for fast transient response mode (low noise).
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#define | EMU_EM01INIT_DEFAULT |
Default initialization of EM0 and 1 configuration.
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#define | EMU_EM23INIT_DEFAULT |
Default initialization of EM2 and 3 configuration.
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#define | EMU_EM4INIT_DEFAULT |
Default initialization of EM4 configuration (Series 1 with VSCALE).
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#define | EMU_DCDCINIT_DEFAULT |
Default DCDC initialization.
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#define | EMU_VMONINIT_DEFAULT |
Default VMON initialization structure.
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#define | EMU_VMONHYSTINIT_DEFAULT |
Default VMON Hysteresis initialization structure.
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#define | EMU_TEMP_ZERO_C_IN_KELVIN (273.15f) |
Zero degrees Celcius in Kelvin.
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Typedefs |
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typedef int16_t | EMU_DcdcLnReverseCurrentControl_TypeDef |
DCDC Forced CCM and reverse current limiter control.
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Enumerations |
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enum |
EMU_BODMode_TypeDef
{
emuBODMode_Active , emuBODMode_Inactive } |
BOD threshold setting selector, active or inactive mode.
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enum |
EMU_EM4State_TypeDef
{
emuEM4Shutoff = 0, emuEM4Hibernate = 1 } |
EM4 modes.
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enum |
EMU_EM4PinRetention_TypeDef
{
emuPinRetentionDisable = EMU_EM4CTRL_EM4IORETMODE_DISABLE, emuPinRetentionEm4Exit = EMU_EM4CTRL_EM4IORETMODE_EM4EXIT, emuPinRetentionLatch = EMU_EM4CTRL_EM4IORETMODE_SWUNLATCH } |
EM4 Pin Retention Type.
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enum | EMU_PowerConfig_TypeDef { emuPowerConfig_DcdcToDvdd } |
Power configurations.
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enum |
EMU_DcdcMode_TypeDef
{
emuDcdcMode_Bypass = EMU_DCDCCTRL_DCDCMODE_BYPASS, emuDcdcMode_LowNoise = EMU_DCDCCTRL_DCDCMODE_LOWNOISE, emuDcdcMode_LowPower = EMU_DCDCCTRL_DCDCMODE_LOWPOWER } |
DCDC operating modes.
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enum |
EMU_DcdcConductionMode_TypeDef
{
emuDcdcConductionMode_ContinuousLN , emuDcdcConductionMode_DiscontinuousLN } |
DCDC conduction modes.
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enum |
EMU_DcdcAnaPeripheralPower_TypeDef
{
emuDcdcAnaPeripheralPower_AVDD = EMU_PWRCTRL_ANASW_AVDD, emuDcdcAnaPeripheralPower_DCDC = EMU_PWRCTRL_ANASW_DVDD } |
DCDC to DVDD mode analog peripheral power supply select.
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enum |
EMU_DcdcLnRcoBand_TypeDef
{
emuDcdcLnRcoBand_3MHz = 0, emuDcdcLnRcoBand_4MHz = 1, emuDcdcLnRcoBand_5MHz = 2, emuDcdcLnRcoBand_6MHz = 3, emuDcdcLnRcoBand_7MHz = 4, emuDcdcLnRcoBand_8MHz = 5, emuDcdcLnRcoBand_9MHz = 6, emuDcdcLnRcoBand_10MHz = 7 } |
DCDC Low-noise RCO band select.
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enum |
EMU_DcdcLnCompCtrl_TypeDef
{
emuDcdcLnCompCtrl_1u0F , emuDcdcLnCompCtrl_4u7F } |
DCDC Low Noise Compensator Control register.
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enum |
EMU_VmonChannel_TypeDef
{
emuVmonChannel_AVDD , emuVmonChannel_ALTAVDD , emuVmonChannel_DVDD , emuVmonChannel_IOVDD0 } |
VMON channels.
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enum |
EMU_VScaleEM01_TypeDef
{
emuVScaleEM01_HighPerformance = _EMU_STATUS_VSCALE_VSCALE2, emuVScaleEM01_LowPower = _EMU_STATUS_VSCALE_VSCALE0 } |
Supported EM0/1 Voltage Scaling Levels.
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enum |
EMU_VScaleEM23_TypeDef
{
emuVScaleEM23_FastWakeup = _EMU_CTRL_EM23VSCALE_VSCALE2, emuVScaleEM23_LowPower = _EMU_CTRL_EM23VSCALE_VSCALE0 } |
Supported EM2/3 Voltage Scaling Levels.
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enum |
EMU_VScaleEM4H_TypeDef
{
emuVScaleEM4H_FastWakeup = _EMU_CTRL_EM4HVSCALE_VSCALE2, emuVScaleEM4H_LowPower = _EMU_CTRL_EM4HVSCALE_VSCALE0 } |
Supported EM4H Voltage Scaling Levels.
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enum |
EMU_PeripheralRetention_TypeDef
{
emuPeripheralRetention_LEUART0 = _EMU_EM23PERNORETAINCTRL_LEUART0DIS_MASK, emuPeripheralRetention_LESENSE0 = _EMU_EM23PERNORETAINCTRL_LESENSE0DIS_MASK, emuPeripheralRetention_WDOG1 = _EMU_EM23PERNORETAINCTRL_WDOG1DIS_MASK, emuPeripheralRetention_WDOG0 = _EMU_EM23PERNORETAINCTRL_WDOG0DIS_MASK, emuPeripheralRetention_LETIMER0 = _EMU_EM23PERNORETAINCTRL_LETIMER0DIS_MASK, emuPeripheralRetention_ADC0 = _EMU_EM23PERNORETAINCTRL_ADC0DIS_MASK, emuPeripheralRetention_IDAC0 = _EMU_EM23PERNORETAINCTRL_IDAC0DIS_MASK, emuPeripheralRetention_VDAC0 = _EMU_EM23PERNORETAINCTRL_VDAC0DIS_MASK, emuPeripheralRetention_I2C0 = _EMU_EM23PERNORETAINCTRL_I2C0DIS_MASK, emuPeripheralRetention_ACMP1 = _EMU_EM23PERNORETAINCTRL_ACMP1DIS_MASK, emuPeripheralRetention_ACMP0 = _EMU_EM23PERNORETAINCTRL_ACMP0DIS_MASK, emuPeripheralRetention_PCNT0 = _EMU_EM23PERNORETAINCTRL_PCNT0DIS_MASK, emuPeripheralRetention_D1 , emuPeripheralRetention_D2 , emuPeripheralRetention_ALL } |
Peripheral EM2 and 3 retention control.
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Function Documentation
◆ EMU_EM23PresleepHook()
void EMU_EM23PresleepHook | ( | void |
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Energy mode 2/3 pre-sleep hook function.
This function is called by EMU_EnterEM2() and EMU_EnterEM3() functions just prior to execution of the WFI instruction. The function implementation does not perform anything, but it is SL_WEAK so that it can be re- implemented in application code if actions are needed.
- Note
- The function is primarily meant to be used in systems with EFP circuitry. (EFP = Energy Friendly Pmic (PMIC = Power Management IC)). In such systems there is a need to drive certain signals to EFP pins to notify about energy mode transitions.
◆ EMU_EM23PostsleepHook()
void EMU_EM23PostsleepHook | ( | void |
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) |
Energy mode 2/3 post-sleep hook function.
This function is called by EMU_EnterEM2() and EMU_EnterEM3() functions just after wakeup from the WFI instruction. The function implementation does not perform anything, but it is SL_WEAK so that it can be re- implemented in application code if actions are needed.
- Note
- The function is primarily meant to be used in systems with EFP circuitry. (EFP = Energy Friendly Pmic (PMIC = Power Management IC)). In such systems there is a need to drive certain signals to EFP pins to notify about energy mode transitions.
◆ EMU_EnterEM2()
void EMU_EnterEM2 | ( | bool |
restore
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) |
Enter energy mode 2 (EM2).
When entering EM2, high-frequency clocks are disabled, i.e., HFXO, HFRCO and AUXHFRCO (for AUXHFRCO, see exception note below). When re-entering EM0, HFRCO is re-enabled and the core will be clocked by the configured HFRCO band. This ensures a quick wakeup from EM2.
However, prior to entering EM2, the core may have been using another oscillator than HFRCO. The
restore
parameter gives the user the option to restore all HF oscillators according to state prior to entering EM2, as well as the clock used to clock the core. This restore procedure is handled by SW. However, since handled by SW, it will not be restored before completing the interrupt function(s) waking up the core!
- Note
- If restoring core clock to use the HFXO oscillator, which has been disabled during EM2 mode, this function will stall until the oscillator has stabilized. Stalling time can be reduced by adding interrupt support detecting stable oscillator, and an asynchronous switch to the original oscillator. See CMU documentation. Such a feature is however outside the scope of the implementation in this function.
- If ERRATA_FIX_EMU_E110_ENABLE is active, the core's SLEEPONEXIT feature can not be used.
- If HFXO is re-enabled by this function, and NOT used to clock the core, this function will not wait for HFXO to stabilize. This must be considered by the application if trying to use features relying on that oscillator upon return.
-
If a debugger is attached, the AUXHFRCO will not be disabled if enabled upon entering EM2. It will thus remain enabled when returning to EM0 regardless of the
restore
parameter.
-
If HFXO autostart and select is enabled by using
CMU_HFXOAutostartEnable()
, the automatic starting and selecting of the core clocks will be done, regardless of the
restore
parameter, when waking up on the wakeup sources corresponding to the autostart and select setting.
- If voltage scaling is supported, the restore parameter is true and the EM0 voltage scaling level is set higher than the EM2 level, then the EM0 level is also restored.
-
On Series 2 Config 2 devices (EFRxG22), this function will also relock the DPLL if the DPLL is used and
restore
is true.
Note that the hardware will automatically update the HFRCO frequency in the case where voltage scaling is used in EM2/EM3 and not in EM0/EM1. When the restore argument to this function is true then software will restore the original HFRCO frequency after EM2/EM3 wake up. If the restore argument is false then the HFRCO frequency is 19 MHz when coming out of EM2/EM3 and all wait states are at a safe value.
- Parameters
-
[in] restore
- true - save and restore oscillators, clocks and voltage scaling, see function details.
- false - do not save and restore oscillators and clocks, see function details.
-
The
restore
option should only be used if all clock control is done via the CMU API.
◆ EMU_EnterEM3()
void EMU_EnterEM3 | ( | bool |
restore
|
) |
Enter energy mode 3 (EM3).
When entering EM3, the high-frequency clocks are disabled by hardware, i.e., HFXO, HFRCO, and AUXHFRCO (for AUXHFRCO, see exception note below). In addition, the low-frequency clocks, i.e., LFXO and LFRCO are disabled by software. When re-entering EM0, HFRCO is re-enabled and the core will be clocked by the configured HFRCO band. This ensures a quick wakeup from EM3.
However, prior to entering EM3, the core may have been using an oscillator other than HFRCO. The
restore
parameter gives the user the option to restore all HF/LF oscillators according to state prior to entering EM3, as well as the clock used to clock the core. This restore procedure is handled by software. However, since it is handled by software, it will not be restored before completing the interrupt function(s) waking up the core!
- Note
- If restoring core clock to use an oscillator other than HFRCO, this function will stall until the oscillator has stabilized. Stalling time can be reduced by adding interrupt support detecting stable oscillator, and an asynchronous switch to the original oscillator. See CMU documentation. This feature is, however, outside the scope of the implementation in this function.
- If ERRATA_FIX_EMU_E110_ENABLE is active, the core's SLEEPONEXIT feature can't be used.
- If HFXO/LFXO/LFRCO are re-enabled by this function, and NOT used to clock the core, this function will not wait for those oscillators to stabilize. This must be considered by the application if trying to use features relying on those oscillators upon return.
-
If a debugger is attached, the AUXHFRCO will not be disabled if enabled upon entering EM3. It will, therefore, remain enabled when returning to EM0 regardless of the
restore
parameter.
- If voltage scaling is supported, the restore parameter is true and the EM0 voltage scaling level is set higher than the EM3 level, then the EM0 level is also restored.
-
On Series 2 Config 2 devices (EFRxG22), this function will also relock the DPLL if the DPLL is used and
restore
is true.
- Parameters
-
[in] restore
- true - save and restore oscillators, clocks and voltage scaling, see function details.
- false - do not save and restore oscillators and clocks, see function details.
-
The
restore
option should only be used if all clock control is done via the CMU API.
◆ EMU_Save()
void EMU_Save | ( | void |
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) |
Save the CMU HF clock select state, oscillator enable, and voltage scaling (if available) before EMU_EnterEM2() or EMU_EnterEM3() are called with the restore parameter set to false.
Calling this function is equivalent to calling EMU_EnterEM2() or EMU_EnterEM3() with the restore parameter set to true, but it allows the state to be saved without going to sleep. The state can be restored manually by calling EMU_Restore() .
◆ EMU_Restore()
void EMU_Restore | ( | void |
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) |
Restore CMU HF clock select state, oscillator enable, and voltage scaling (if available) after EMU_EnterEM2() or EMU_EnterEM3() are called with the restore parameter set to false.
Calling this function is equivalent to calling EMU_EnterEM2() or EMU_EnterEM3() with the restore parameter set to true, but it allows the application to evaluate the wakeup reason before restoring state.
◆ EMU_EnterEM4()
void EMU_EnterEM4 | ( | void |
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) |
Enter energy mode 4 (EM4).
- Note
- Only a power on reset or external reset pin can wake the device from EM4.
◆ EMU_EnterEM4H()
void EMU_EnterEM4H | ( | void |
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) |
Enter energy mode 4 hibernate (EM4H).
- Note
- Retention of clocks and GPIO in EM4 can be configured using EMU_EM4Init before calling this function.
◆ EMU_EnterEM4S()
void EMU_EnterEM4S | ( | void |
|
) |
Enter energy mode 4 shutoff (EM4S).
- Note
- Retention of clocks and GPIO in EM4 can be configured using EMU_EM4Init before calling this function.
◆ EMU_MemPwrDown()
void EMU_MemPwrDown | ( | uint32_t |
blocks
|
) |
Power down memory block.
- Parameters
-
[in] blocks
Specifies a logical OR of bits indicating memory blocks to power down. Bit 0 selects block 1, bit 1 selects block 2, and so on. Memory block 0 cannot be disabled. See the reference manual for available memory blocks for a device.
- Note
- Only a POR reset can power up the specified memory block(s) after power down.
◆ EMU_RamPowerDown()
void EMU_RamPowerDown | ( | uint32_t |
start,
|
uint32_t |
end
|
||
) |
Power down RAM memory blocks.
This function will power down all the RAM blocks that are within a given range. The RAM block layout is different between device families, so this function can be used in a generic way to power down a RAM memory region which is known to be unused.
This function will only power down blocks which are completely enclosed by the memory range given by [start, end).
This is an example to power down all RAM blocks except the first one. The first RAM block is special in that it cannot be powered down by the hardware. The size of the first RAM block is device-specific. See the reference manual to find the RAM block sizes.
- Note
- Only a reset can power up the specified memory block(s) after power down on a series 0 device.
- Parameters
-
[in] start
The start address of the RAM region to power down. This address is inclusive. [in] end
The end address of the RAM region to power down. This address is exclusive. If this parameter is 0, all RAM blocks contained in the region from start to the upper RAM address will be powered down.
◆ EMU_RamPowerUp()
void EMU_RamPowerUp | ( | void |
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) |
Power up all available RAM memory blocks.
This function will power up all the RAM blocks on a device, this means that the RAM blocks are retained in EM2/EM3. Note that this functionality is not supported on Series 0 devices. Only a reset will power up the RAM blocks on a series 0 device.
◆ EMU_PeripheralRetention()
void EMU_PeripheralRetention | ( | EMU_PeripheralRetention_TypeDef |
periMask,
|
bool |
enable
|
||
) |
Set EM2 3 peripheral retention control.
- Parameters
-
[in] periMask
A peripheral select mask. Use | operator to select multiple peripherals, for example emuPeripheralRetention_LEUART0 | emuPeripheralRetention_VDAC0 . [in] enable
Peripheral retention enable (true) or disable (false).
- Note
- Only peripheral retention disable is currently supported. Peripherals are enabled by default and can only be disabled.
◆ EMU_UpdateOscConfig()
void EMU_UpdateOscConfig | ( | void |
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) |
Update EMU module with CMU oscillator selection/enable status.
◆ EMU_VScaleEM01ByClock()
void EMU_VScaleEM01ByClock | ( | uint32_t |
clockFrequency,
|
bool |
wait
|
||
) |
Voltage scale in EM0 and 1 by clock frequency.
- Parameters
-
[in] clockFrequency
Use CMSIS HF clock if 0 or override to custom clock. Providing a custom clock frequency is required if using a non-standard HFXO frequency. [in] wait
Wait for scaling to complete.
- Note
- This function is primarily needed by the CMU - Clock Management Unit .
◆ EMU_VScaleEM01()
void EMU_VScaleEM01 | ( | EMU_VScaleEM01_TypeDef |
voltage,
|
bool |
wait
|
||
) |
Force voltage scaling in EM0 and 1 to a specific voltage level.
- Parameters
-
[in] voltage
Target VSCALE voltage level. [in] wait
Wait for scaling to complete.
- Note
- This function is useful for upscaling before programming Flash from MSC - Memory System Controller and downscaling after programming is done. Flash programming is only supported at emuVScaleEM01_HighPerformance .
- This function ignores vScaleEM01LowPowerVoltageEnable set from EMU_EM01Init() .
◆ EMU_EM01Init()
void EMU_EM01Init | ( | const EMU_EM01Init_TypeDef * |
em01Init
|
) |
Update the EMU module with Energy Mode 0 and 1 configuration.
- Parameters
-
[in] em01Init
Energy Mode 0 and 1 configuration structure.
◆ EMU_EM23Init()
void EMU_EM23Init | ( | const EMU_EM23Init_TypeDef * |
em23Init
|
) |
Update the EMU module with Energy Mode 2 and 3 configuration.
- Parameters
-
[in] em23Init
Energy Mode 2 and 3 configuration structure.
◆ EMU_EM4Init()
void EMU_EM4Init | ( | const EMU_EM4Init_TypeDef * |
em4Init
|
) |
Update the EMU module with Energy Mode 4 configuration.
- Parameters
-
[in] em4Init
Energy Mode 4 configuration structure.
◆ EMU_DCDCModeSet()
void EMU_DCDCModeSet | ( | EMU_DcdcMode_TypeDef |
dcdcMode
|
) |
Set DCDC regulator operating mode.
- Parameters
-
[in] dcdcMode
DCDC mode.
◆ EMU_DCDCConductionModeSet()
void EMU_DCDCConductionModeSet | ( | EMU_DcdcConductionMode_TypeDef |
conductionMode,
|
bool |
rcoDefaultSet
|
||
) |
Set DCDC LN regulator conduction mode.
- Parameters
-
[in] conductionMode
DCDC LN conduction mode. [in] rcoDefaultSet
The default DCDC RCO band for the conductionMode will be used if true. Otherwise, the current RCO configuration is used.
◆ EMU_DCDCInit()
bool EMU_DCDCInit | ( | const EMU_DCDCInit_TypeDef * |
dcdcInit
|
) |
Configure the DCDC regulator.
- Note
- Do not call this function if the power circuit is configured for NODCDC as described in the Power Configurations section of the Reference Manual. Instead, call EMU_DCDCPowerOff() .
- Parameters
-
[in] dcdcInit
The DCDC initialization structure.
- Returns
- True if initialization parameters are valid.
◆ EMU_DCDCOutputVoltageSet()
bool EMU_DCDCOutputVoltageSet | ( | uint32_t |
mV,
|
bool |
setLpVoltage,
|
||
bool |
setLnVoltage
|
||
) |
Set the DCDC output voltage.
- Note
- The DCDC is not characterized for the entire valid output voltage range. For that reason an upper limit of 3.0V output voltage is enforced.
- Parameters
-
[in] mV
Target DCDC output voltage in mV. [in] setLpVoltage
Update LP voltage [in] setLnVoltage
Update LN voltage
- Returns
- True if the mV parameter is valid.
◆ EMU_DCDCOptimizeSlice()
void EMU_DCDCOptimizeSlice | ( | uint32_t |
em0LoadCurrentmA
|
) |
Optimize the DCDC slice count based on the estimated average load current in EM0.
- Parameters
-
[in] em0LoadCurrentmA
Estimated average EM0 load current in mA.
◆ EMU_DCDCLnRcoBandSet()
void EMU_DCDCLnRcoBandSet | ( | EMU_DcdcLnRcoBand_TypeDef |
band
|
) |
Set DCDC Low-noise RCO band.
- Parameters
-
[in] band
RCO band to set.
◆ EMU_DCDCPowerOff()
bool EMU_DCDCPowerOff | ( | void |
|
) |
Power off the DCDC regulator.
This function powers off the DCDC controller. This function should only be used if the external power circuit is wired for no DCDC. If the external power circuit is wired for DCDC usage, use EMU_DCDCInit() and set the DCDC in bypass mode to disable DCDC.
- Returns
- Return false if the DCDC could not be disabled.
◆ EMU_VmonInit()
void EMU_VmonInit | ( | const EMU_VmonInit_TypeDef * |
vmonInit
|
) |
Initialize a VMON channel.
Initialize a VMON channel without hysteresis. If the channel supports separate rise and fall triggers, both thresholds will be set to the same value. The threshold will be converted to a register field value based on calibration values from the DI page.
- Parameters
-
[in] vmonInit
The VMON initialization structure.
◆ EMU_VmonHystInit()
void EMU_VmonHystInit | ( | const EMU_VmonHystInit_TypeDef * |
vmonInit
|
) |
Initialize a VMON channel with hysteresis (separate rise and fall triggers).
Initialize a VMON channel which supports hysteresis. The AVDD channel is the only channel to support separate rise and fall triggers. The rise and fall thresholds will be converted to a register field value based on the calibration values from the DI page.
- Parameters
-
[in] vmonInit
The VMON hysteresis initialization structure.
◆ EMU_VmonEnable()
void EMU_VmonEnable | ( | EMU_VmonChannel_TypeDef |
channel,
|
bool |
enable
|
||
) |
Enable or disable a VMON channel.
- Parameters
-
[in] channel
A VMON channel to enable/disable. [in] enable
Indicates whether to enable or disable.
◆ EMU_VmonChannelStatusGet()
bool EMU_VmonChannelStatusGet | ( | EMU_VmonChannel_TypeDef |
channel
|
) |
Get the status of a voltage monitor channel.
- Parameters
-
[in] channel
A VMON channel to get the status for.
- Returns
- A status of the selected VMON channel. True if the channel is triggered.
◆ EMU_TemperatureGet()
float EMU_TemperatureGet | ( | void |
|
) |
Get temperature in degrees Celcius.
- Returns
- Temperature in degrees Celcius
◆ EMU_LDOStatusGet()
|
inline |
Check status of the internal LDO regulator.
- Returns
- Return true if the regulator is on, false if regulator is off.
◆ EMU_EnterEM1()
|
inline |
Enter energy mode 1 (EM1).
◆ EMU_VScaleWait()
|
inline |
Wait for voltage scaling to complete.
◆ EMU_VScaleGet()
|
inline |
Get current voltage scaling level.
- Returns
- Current voltage scaling level.
◆ EMU_VmonStatusGet()
|
inline |
Get the status of the voltage monitor (VMON).
- Returns
- Status of the VMON. True if all the enabled channels are ready, false if one or more of the enabled channels are not ready.
◆ EMU_IntClear()
|
inline |
Clear one or more pending EMU interrupts.
- Parameters
-
[in] flags
Pending EMU interrupt sources to clear. Use one or more valid interrupt flags for the EMU module (EMU_IFC_nnn).
◆ EMU_IntDisable()
|
inline |
Disable one or more EMU interrupts.
- Parameters
-
[in] flags
EMU interrupt sources to disable. Use one or more valid interrupt flags for the EMU module (EMU_IEN_nnn).
◆ EMU_IntEnable()
|
inline |
Enable one or more EMU interrupts.
- Note
- Depending on the use, a pending interrupt may already be set prior to enabling the interrupt. To ignore a pending interrupt, consider using EMU_IntClear() prior to enabling the interrupt.
- Parameters
-
[in] flags
EMU interrupt sources to enable. Use one or more valid interrupt flags for the EMU module (EMU_IEN_nnn).
◆ EMU_IntGet()
|
inline |
Get pending EMU interrupt flags.
- Note
- Event bits are not cleared by the use of this function.
- Returns
- EMU interrupt sources pending. Returns one or more valid interrupt flags for the EMU module (EMU_IF_nnn).
◆ EMU_IntGetEnabled()
|
inline |
Get enabled and pending EMU interrupt flags.
Useful for handling more interrupt sources in the same interrupt handler.
- Note
- Interrupt flags are not cleared by the use of this function.
- Returns
-
Pending and enabled EMU interrupt sources Return value is the bitwise AND of
- the enabled interrupt sources in EMU_IEN and
- the pending interrupt flags EMU_IF.
◆ EMU_IntSet()
|
inline |
Set one or more pending EMU interrupts.
- Parameters
-
[in] flags
EMU interrupt sources to set to pending. Use one or more valid interrupt flags for the EMU module (EMU_IFS_nnn).
◆ EMU_Lock()
|
inline |
Lock EMU registers in order to protect them against unintended modification.
- Note
- If locking EMU registers, they must be unlocked prior to using any EMU API functions modifying EMU registers, excluding interrupt control and regulator control if the architecture has a EMU_PWRCTRL register. An exception to this is the energy mode entering API (EMU_EnterEMn()), which can be used when the EMU registers are locked.
◆ EMU_Unlock()
|
inline |
Unlock the EMU so that writing to locked registers again is possible.
◆ EMU_PowerLock()
|
inline |
Lock the EMU regulator control registers in order to protect against unintended modification.
◆ EMU_PowerUnlock()
|
inline |
Unlock the EMU power control registers so that writing to locked registers again is possible.
◆ EMU_EM2Block()
|
inline |
Block entering EM2 or higher number energy modes.
◆ EMU_EM2UnBlock()
|
inline |
Unblock entering EM2 or higher number energy modes.
◆ EMU_UnlatchPinRetention()
|
inline |
When EM4 pin retention is set to emuPinRetentionLatch, then pins are retained through EM4 entry and wakeup.
The pin state is released by calling this function. The feature allows peripherals or GPIO to be re-initialized after EM4 exit (reset), and when initialization is done, this function can release pins and return control to the peripherals or GPIO.
◆ EMU_TemperatureReady()
|
inline |
Temperature measurement ready status.
- Returns
- True if temperature measurement is ready
Macro Definition Documentation
◆ EMU_TEMPCO_CONST
#define EMU_TEMPCO_CONST (0.273f) |
As we do not know what energy mode a temperature measurement was taken at, we choose a constant for the TEMPCO calculation that is midway between the EM0/EM1 constant and the EM2/EM3/EM4 constant.
◆ EMU_VSCALE_PRESENT
#define EMU_VSCALE_PRESENT |
Voltage scaling present.
◆ emuDcdcLnHighEfficiency
#define emuDcdcLnHighEfficiency -1 |
High efficiency mode.
EMU_DCDCZDETCTRL_ZDETILIMSEL is "don't care".
◆ emuDcdcLnFastTransient
#define emuDcdcLnFastTransient 160 |
Default reverse current for fast transient response mode (low noise).
◆ EMU_EM01INIT_DEFAULT
#define EMU_EM01INIT_DEFAULT |
Default initialization of EM0 and 1 configuration.
◆ EMU_EM23INIT_DEFAULT
#define EMU_EM23INIT_DEFAULT |
Default initialization of EM2 and 3 configuration.
◆ EMU_EM4INIT_DEFAULT
#define EMU_EM4INIT_DEFAULT |
Default initialization of EM4 configuration (Series 1 with VSCALE).
◆ EMU_DCDCINIT_DEFAULT
#define EMU_DCDCINIT_DEFAULT |
Default DCDC initialization.
◆ EMU_VMONINIT_DEFAULT
#define EMU_VMONINIT_DEFAULT |
Default VMON initialization structure.
◆ EMU_VMONHYSTINIT_DEFAULT
#define EMU_VMONHYSTINIT_DEFAULT |
Default VMON Hysteresis initialization structure.
◆ EMU_TEMP_ZERO_C_IN_KELVIN
#define EMU_TEMP_ZERO_C_IN_KELVIN (273.15f) |
Zero degrees Celcius in Kelvin.
Typedef Documentation
◆ EMU_DcdcLnReverseCurrentControl_TypeDef
typedef int16_t EMU_DcdcLnReverseCurrentControl_TypeDef |
DCDC Forced CCM and reverse current limiter control.
Positive values have unit mA.
Enumeration Type Documentation
◆ EMU_BODMode_TypeDef
enum EMU_BODMode_TypeDef |
◆ EMU_EM4State_TypeDef
enum EMU_EM4State_TypeDef |
◆ EMU_EM4PinRetention_TypeDef
EM4 Pin Retention Type.
Enumerator | |
---|---|
emuPinRetentionDisable |
No Retention: Pads enter reset state when entering EM4. |
emuPinRetentionEm4Exit |
Retention through EM4: Pads enter reset state when exiting EM4. |
emuPinRetentionLatch |
Retention through EM4 and wakeup: call EMU_UnlatchPinRetention() to release pins from retention after EM4 wakeup. |
◆ EMU_PowerConfig_TypeDef
◆ EMU_DcdcMode_TypeDef
enum EMU_DcdcMode_TypeDef |
◆ EMU_DcdcConductionMode_TypeDef
DCDC conduction modes.
◆ EMU_DcdcAnaPeripheralPower_TypeDef
DCDC to DVDD mode analog peripheral power supply select.
◆ EMU_DcdcLnRcoBand_TypeDef
DCDC Low-noise RCO band select.
◆ EMU_DcdcLnCompCtrl_TypeDef
◆ EMU_VmonChannel_TypeDef
VMON channels.
◆ EMU_VScaleEM01_TypeDef
Supported EM0/1 Voltage Scaling Levels.
Enumerator | |
---|---|
emuVScaleEM01_HighPerformance |
High-performance voltage level. HF clock can be set to any frequency. |
emuVScaleEM01_LowPower |
Low-power optimized voltage level. HF clock must be limited to CMU_VSCALEEM01_LOWPOWER_VOLTAGE_CLOCK_MAX Hz at this voltage. EM0/1 voltage scaling is applied when core clock frequency is changed from CMU - Clock Management Unit or when calling EMU_EM01Init() when HF clock is already below the limit. |
◆ EMU_VScaleEM23_TypeDef
Supported EM2/3 Voltage Scaling Levels.
Enumerator | |
---|---|
emuVScaleEM23_FastWakeup |
Fast-wakeup voltage level. |
emuVScaleEM23_LowPower |
Low-power optimized voltage level. Using this voltage level in EM2 and 3 adds approximately 30 us to wakeup time if EM0 and 1 voltage must be scaled up to emuVScaleEM01_HighPerformance on EM2 or 3 exit. |
◆ EMU_VScaleEM4H_TypeDef
Supported EM4H Voltage Scaling Levels.
Enumerator | |
---|---|
emuVScaleEM4H_FastWakeup |
Fast-wakeup voltage level. |
emuVScaleEM4H_LowPower |
Low-power optimized voltage level. Using this voltage level in EM4H adds approximately 30 us to wakeup time if EM0 and 1 voltage must be scaled up to emuVScaleEM01_HighPerformance on EM4H exit. |
◆ EMU_PeripheralRetention_TypeDef
Peripheral EM2 and 3 retention control.