.. _stm32-pm-blinky-sample: STM32 PM Blinky ############### Overview ******** This sample is a minimum application to demonstrate basic power management behavior in a basic blinking LED set up using the :ref:`GPIO API ` in low power context. Note that lptim instance selected for the low power timer is named **&stm32_lp_tick_source** When setting a prescaler to decrease the lptimer input clock frequency, the system can sleep for a longer timeout value and the CONFIG_SYS_CLOCK_TICKS_PER_SEC is adjusted. For example, when clocking the low power Timer with LSE clock at 32768Hz and adding a prescaler of <32>, then the kernel sleep period can reach 65536 * 32/32768 = 64 seconds CONFIG_SYS_CLOCK_TICKS_PER_SEC is set to 1024. .. _stm32-pm-blinky-sample-requirements: Requirements ************ The board should support enabling PM. For a STM32 based target, it means that it should support a clock source alternative to Cortex Systick that can be used in core sleep states, as LPTIM (:dtcompatible:`st,stm32-lptim`). Building and Running ******************** Build and flash Blinky as follows, changing ``stm32l562e_dk`` for your board: .. zephyr-app-commands:: :zephyr-app: samples/basic/blinky :board: stm32l562e_dk :goals: build flash :compact: After flashing, the LED starts to blink with a fixed period (SLEEP_TIME_MS). When LPTIM input clock has a prescaler, longer perdiod (up to 64 seconds) of low power can be tested. PM configurations ***************** By default, :kconfig:option:`CONFIG_PM_DEVICE` and :kconfig:option:`CONFIG_PM_DEVICE_RUNTIME` are enabled, but user can also deactivate one or the other to see each configuration in play.