esp-idf/components/esp_pm/Kconfig

166 lines
9.3 KiB
Plaintext

menu "Power Management"
config PM_ENABLE
bool "Support for power management"
# SMP FreeRTOS currently does not support power management IDF-4997
depends on !FREERTOS_SMP
default n
help
If enabled, application is compiled with support for power management.
This option has run-time overhead (increased interrupt latency,
longer time to enter idle state), and it also reduces accuracy of
RTOS ticks and timers used for timekeeping.
Enable this option if application uses power management APIs.
config PM_DFS_INIT_AUTO
bool "Enable dynamic frequency scaling (DFS) at startup"
depends on PM_ENABLE
default n
help
If enabled, startup code configures dynamic frequency scaling.
Max CPU frequency is set to DEFAULT_CPU_FREQ_MHZ setting,
min frequency is set to XTAL frequency.
If disabled, DFS will not be active until the application
configures it using esp_pm_configure function.
config PM_PROFILING
bool "Enable profiling counters for PM locks"
depends on PM_ENABLE
default n
help
If enabled, esp_pm_* functions will keep track of the amount of time
each of the power management locks has been held, and esp_pm_dump_locks
function will print this information.
This feature can be used to analyze which locks are preventing the chip
from going into a lower power state, and see what time the chip spends
in each power saving mode. This feature does incur some run-time
overhead, so should typically be disabled in production builds.
config PM_TRACE
bool "Enable debug tracing of PM using GPIOs"
depends on PM_ENABLE
default n
help
If enabled, some GPIOs will be used to signal events such as RTOS ticks,
frequency switching, entry/exit from idle state. Refer to pm_trace.c
file for the list of GPIOs.
This feature is intended to be used when analyzing/debugging behavior
of power management implementation, and should be kept disabled in
applications.
config PM_SLP_IRAM_OPT
bool "Put lightsleep related codes in internal RAM"
depends on FREERTOS_USE_TICKLESS_IDLE
help
If enabled, about 1.8KB of lightsleep related source code would be in IRAM and chip would sleep
longer for 760us at most each time.
This feature is intended to be used when lower power consumption is needed
while there is enough place in IRAM to place source code.
config PM_RTOS_IDLE_OPT
bool "Put RTOS IDLE related codes in internal RAM"
depends on FREERTOS_USE_TICKLESS_IDLE
help
If enabled, about 260B of RTOS_IDLE related source code would be in IRAM and chip would sleep
longer for 40us at most each time.
This feature is intended to be used when lower power consumption is needed
while there is enough place in IRAM to place source code.
config PM_SLP_DISABLE_GPIO
bool "Disable all GPIO when chip at sleep"
depends on FREERTOS_USE_TICKLESS_IDLE
help
This feature is intended to disable all GPIO pins at automantic sleep to get a lower power mode.
If enabled, chips will disable all GPIO pins at automantic sleep to reduce about 200~300 uA current.
If you want to specifically use some pins normally as chip wakes when chip sleeps,
you can call 'gpio_sleep_sel_dis' to disable this feature on those pins.
You can also keep this feature on and call 'gpio_sleep_set_direction' and 'gpio_sleep_set_pull_mode'
to have a different GPIO configuration at sleep.
Waring: If you want to enable this option on ESP32, you should enable `GPIO_ESP32_SUPPORT_SWITCH_SLP_PULL`
at first, otherwise you will not be able to switch pullup/pulldown mode.
config PM_SLP_DEFAULT_PARAMS_OPT
bool
default n
config PM_CHECK_SLEEP_RETENTION_FRAME
bool
depends on PM_POWER_DOWN_CPU_IN_LIGHT_SLEEP
default n if !IDF_CI_BUILD
help
This option is invisible to users, and it is only used for ci testing,
enabling it in the application will increase the sleep and wake-up time overhead
config PM_POWER_DOWN_CPU_IN_LIGHT_SLEEP
bool "Power down CPU in light sleep"
depends on SOC_PM_SUPPORT_CPU_PD
select PM_POWER_DOWN_TAGMEM_IN_LIGHT_SLEEP if ESP32S3_DATA_CACHE_16KB
default y
help
If enabled, the CPU will be powered down in light sleep, ESP chips supports saving and restoring
CPU's running context before and after light sleep, the feature provides applications with seamless
CPU powerdowned lightsleep without user awareness.
But this will takes up some internal memory. On esp32c3 soc, enabling this option will consume 1.68 KB
of internal RAM and will reduce sleep current consumption by about 100 uA. On esp32s3 soc, enabling this
option will consume 8.58 KB of internal RAM and will reduce sleep current consumption by about 650 uA.
config PM_POWER_DOWN_TAGMEM_IN_LIGHT_SLEEP
bool "Restore I/D-cache tag memory after power down CPU light sleep"
depends on IDF_TARGET_ESP32S3 && PM_POWER_DOWN_CPU_IN_LIGHT_SLEEP
default y
help
Cache tag memory and CPU both belong to the CPU power domain. ESP chips supports saving and restoring
Cache tag memory before and after sleep, this feature supports accesses to the external memory that was
cached before sleep still be cached when the CPU wakes up from a powerdowned CPU lightsleep. This option
controls the restore method for Cache tag memory in lightsleep.
If this option is enabled, the I/D-cache tag memory will be backuped to the internal RAM before sleep and
restored upon wakeup. Depending on the the cache configuration, if this option is enabled, it will consume
up to 9 KB of internal RAM.
If this option is disabled, all cached data won't be kept after sleep, the DCache will be writeback before
sleep and invalid all cached data after sleep, all accesses to external memory(Flash/PSRAM) will be cache
missed after waking up, resulting in performance degradation due to increased memory accesses latency.
config PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
bool "Power down Digital Peripheral in light sleep (EXPERIMENTAL)"
depends on SOC_PAU_SUPPORTED
default n #TODO: enable by default if periph init/deinit management supported (WIFI-5252)
help
If enabled, digital peripherals will be powered down in light sleep, it will reduce sleep
current consumption by about 100 uA. Chip will save/restore register context at sleep/wake
time to keep the system running. Enabling this option will increase static RAM and heap usage,
the actual cost depends on the peripherals you have initialized. In order to save/restore the
context of the necessary hardware for FreeRTOS to run, it will need at least 4.55 KB free heap
at sleep time. Otherwise sleep will not power down the peripherals.
Note1: Please use this option with caution, the current IDF does not support the retention of
all peripherals. When the digital peripherals are powered off and a sleep and wake-up is completed,
the peripherals that have not saved the running context are equivalent to performing a reset.
!!! Please confirm the peripherals used in your application and their sleep retention support status
before enabling this option, peripherals sleep retention driver support status is tracked in
power_management.rst
Note2: When this option is enabled simultaneously with FREERTOS_USE_TICKLESS_IDLE, since the UART will
be powered down, the uart FIFO will be flushed before sleep to avoid data loss, however, this has the
potential to block the sleep process and cause the wakeup time to be skipped, which will cause the tick
of freertos to not be compensated correctly when returning from sleep and cause the system to crash.
To avoid this, you can increase FREERTOS_IDLE_TIME_BEFORE_SLEEP threshold in menuconfig.
config PM_UPDATE_CCOMPARE_HLI_WORKAROUND
bool
default y if PM_ENABLE && BTDM_CTRL_HLI
config PM_LIGHT_SLEEP_CALLBACKS
bool "Enable registration of pm light sleep callbacks"
depends on FREERTOS_USE_TICKLESS_IDLE
default n
help
If enabled, it allows user to register entry and exit callbacks which are called before and after
entering auto light sleep.
NOTE: These callbacks are executed from the IDLE task context hence you cannot have any blocking calls
in your callbacks.
NOTE: Enabling these callbacks may change sleep duration calculations based on time spent in callback and
hence it is highly recommended to keep them as short as possible
endmenu # "Power Management"