EFM32WG Datasheet, PDF(109/834 Page) List of Unclassifed Manufacturers – The EFM32WG Wonder Gecko is the ideal choice for demanding 8-, 16-, and 32-bit energy sensitive applications.

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EFM32WG Datasheet, PDF (109/834 Pages) List of Unclassifed Manufacturers – The EFM32WG Wonder Gecko is the ideal choice for demanding 8-, 16-, and 32-bit energy sensitive applications.

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...the world's most energy friendly microcontrollers

â¢ MCU clock tree is inactive

â¢ High frequency peripheral clock trees are active

â¢ All peripheral functionality is available

10.3.1.3 EM2

â¢ The high frequency oscillator is inactive

â¢ The high frequency peripheral and MCU clock trees are inactive

â¢ The low frequency oscillator and clock trees are active

â¢ Low frequency peripheral functionality (RTC, Watchdog, LCD, LEUART, I2C, LETIMER, PCNT,

LESENSE, BURTC) is available

â¢ Wakeup through peripheral interrupt or asynchronous pin interrupt

â¢ RAM and register values are preserved

â¢ DAC and OPAMPs are available

10.3.1.4 EM3

â¢ Both high and low frequency oscillators and clock trees are inactive

â¢ Wakeup through asynchronous pin interrupts, I2C address recognition or ACMP edge interrupt

â¢ Watchdog, LETIMER and LESENSE enabled when ULFRCO (1 kHz clock) has been selected

â¢ BURTC is available.

â¢ All other peripheral functionality is disabled

â¢ RAM and register values are preserved

â¢ DAC and OPAMPs are available

10.3.1.5 EM4

â¢ All oscillators and regulators are inactive, if Backup RTC is not enabled.

â¢ RAM and register values are not preserved, except for the ones located in the Backup RTC.

â¢ Optional GPIO state retention

â¢ Wakeup from Backup RTC interrupt, external pin reset or pins that support EM4 wakeup

10.3.2 Entering a Low Energy Mode

A low energy mode is entered by first configuring the desired Energy Mode through the EMU_CTRL

register and the SLEEPDEEP bit in the Cortex-M4 System Control Register, see Table 10.2 (p. 110) .

A Wait For Interrupt (WFI) or Wait For Event (WFE) instruction from the Cortex-M4 triggers the transition

into a low energy mode.

The transition into a low energy mode can optionally be delayed until the lowest priority Interrupt Service

Routine (ISR) is exited, if the SLEEPONEXIT bit in the Cortex-M4 System Control Register is set.

Entering the lowest energy mode, EM4, is done by writing a sequence to the EM4CTRL bitfield in

the EMU_CTRL register. Writing a zero to the EM4CTRL bitfield will restart the power sequence.

EM2BLOCK prevents the EMU to enter EM2 or lower, and it will instead enter EM1.

EM3 is equal to EM2, except that the LFACLK/LFBCLK are disabled in EM3. The LFACLK/LFBCLK

must be disabled by the user before entering low energy mode.

The EMVREG bit in EMU_CTRL can be used to prevent the voltage regulator from being turned off in

low energy modes. The device will then essentially stay in EM1 when entering a low energy mode.

2013-05-08 - Wonder Gecko Family - d0233_Rev0.50

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