esp-idf/components/esp32s2beta/Kconfig

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menu "ESP32S2-specific"
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# TODO: this component simply shouldn't be included
# in the build at the CMake level, but this is currently
# not working so we just hide all items here
visible if IDF_TARGET_ESP32S2BETA
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choice ESP32S2_BETA_CHIP_VERSION
# TODO: remove once final S2 chip is supported
prompt "ESP32-S2 Beta chip version"
default ESP32S2_BETA_VERSION_A
help
There are three versions of ESP32-S2 beta chip with different Wi-Fi PHY: A, B and Marlin3.
This setting must match the chip for Wi-Fi to work correctly. You can determine
the chip version by reading the markings on top of the chip. It will be one of the
three options given here.
The Wi-Fi performance of Marlin3 is the best among the three versions of chip.
config ESP32S2_BETA_VERSION_A
bool "Chip7.2.2-A"
config ESP32S2_BETA_VERSION_B
bool "Chip7.2.2-B"
config ESP32S2_BETA_VERSION_MARLIN3
bool "Marlin3-B2 or Marlin3-B3"
endchoice
choice ESP32S2_DEFAULT_CPU_FREQ_MHZ
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prompt "CPU frequency"
default ESP32S2_DEFAULT_CPU_FREQ_160
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help
CPU frequency to be set on application startup.
config ESP32S2_DEFAULT_CPU_FREQ_80
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bool "80 MHz"
config ESP32S2_DEFAULT_CPU_FREQ_160
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bool "160 MHz"
config ESP32S2_DEFAULT_CPU_FREQ_240
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bool "240 MHz"
endchoice
config ESP32S2_DEFAULT_CPU_FREQ_MHZ
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int
default 80 if ESP32S2_DEFAULT_CPU_FREQ_80
default 160 if ESP32S2_DEFAULT_CPU_FREQ_160
default 240 if ESP32S2_DEFAULT_CPU_FREQ_240
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menu "Cache config"
choice ESP32S2_INSTRUCTION_CACHE_SIZE
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prompt "Instruction cache size"
default ESP32S2_INSTRUCTION_CACHE_8KB
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help
Instruction cache size to be set on application startup.
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If you use 8KB instruction cache rather than 16KB instruction cache,
then the other 8KB will be added to the heap.
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config ESP32S2_INSTRUCTION_CACHE_8KB
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bool "8KB"
config ESP32S2_INSTRUCTION_CACHE_16KB
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bool "16KB"
endchoice
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choice ESP32S2_INSTRUCTION_CACHE_WAYS
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prompt "Instruction cache associated ways"
default ESP32S2_INSTRUCTION_CACHE_8WAYS
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help
Instruction cache associated ways to be set on application startup.
config ESP32S2_INSTRUCTION_CACHE_4WAYS
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bool "4 ways"
config ESP32S2_INSTRUCTION_CACHE_8WAYS
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bool "8 ways"
endchoice
choice ESP32S2_INSTRUCTION_CACHE_LINE_SIZE
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prompt "Instruction cache line size"
default ESP32S2_INSTRUCTION_CACHE_LINE_32B
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help
Instruction cache line size to be set on application startup.
config ESP32S2_INSTRUCTION_CACHE_LINE_16B
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bool "16 Bytes"
config ESP32S2_INSTRUCTION_CACHE_LINE_32B
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bool "32 Bytes"
config ESP32S2_INSTRUCTION_CACHE_LINE_64B
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bool "64 Bytes"
endchoice
choice ESP32S2_DATA_CACHE_SIZE
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prompt "Data cache size"
default ESP32S2_DATA_CACHE_8KB
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help
Data cache size to be set on application startup.
If you use 8KB data cache rather than 16KB data cache, the other 8KB will be added to the heap.
config ESP32S2_DATA_CACHE_0KB
depends on !ESP32S2_SPIRAM_SUPPORT
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bool "0KB"
config ESP32S2_DATA_CACHE_8KB
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bool "8KB"
config ESP32S2_DATA_CACHE_16KB
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bool "16KB"
endchoice
choice ESP32S2_DATA_CACHE_ASSOCIATED_WAYS
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prompt "Data cache associated ways"
default ESP32S2_DATA_CACHE_8WAYS
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help
Data cache associated ways to be set on application startup.
config ESP32S2_DATA_CACHE_4WAYS
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bool "4 ways"
config ESP32S2_DATA_CACHE_8WAYS
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bool "8 ways"
endchoice
choice ESP32S2_DATA_CACHE_LINE_SIZE
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prompt "Data cache line size"
default ESP32S2_DATA_CACHE_LINE_32B
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help
Data cache line size to be set on application startup.
config ESP32S2_DATA_CACHE_LINE_16B
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bool "16 Bytes"
config ESP32S2_DATA_CACHE_LINE_32B
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bool "32 Bytes"
config ESP32S2_DATA_CACHE_LINE_64B
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bool "64 Bytes"
endchoice
config ESP32S2_RODATA_USE_DATA_CACHE
depends on ESP32S2_DATA_CACHE_8KB || ESP32S2_DATA_CACHE_16KB
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bool "Use data cache rather than instruction cache to access read only data"
default "n"
help
If enabled, CPU will access rodata through data cache, which will reduce the overload
of instruction cache, however will increase the overload of data cache.
config ESP32S2_INSTRUCTION_CACHE_WRAP
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bool "Enable instruction cache wrap"
default "n"
help
If enabled, instruction cache will use wrap mode to read spi flash (maybe spiram).
The wrap length equals to INSTRUCTION_CACHE_LINE_SIZE.
However, it depends on complex conditions.
config ESP32S2_DATA_CACHE_WRAP
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bool "Enable data cache wrap"
default "n"
help
If enabled, data cache will use wrap mode to read spiram (maybe spi flash).
The wrap length equals to DATA_CACHE_LINE_SIZE.
However, it depends on complex conditions.
endmenu # Cache config
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# Note: to support SPIRAM across multiple chips, check CONFIG_SPIRAM
# instead
config ESP32S2_SPIRAM_SUPPORT
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bool "Support for external, SPI-connected RAM"
default "n"
select SPIRAM
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help
This enables support for an external SPI RAM chip, connected in parallel with the
main SPI flash chip.
menu "SPI RAM config"
depends on ESP32S2_SPIRAM_SUPPORT
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choice SPIRAM_TYPE
prompt "Type of SPI RAM chip in use"
default SPIRAM_TYPE_ESPPSRAM32
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config SPIRAM_TYPE_ESPPSRAM32
bool "ESP-PSRAM32 or IS25WP032"
config SPIRAM_TYPE_ESPPSRAM64
bool "ESP-PSRAM64 or LY68L6400"
endchoice
config SPIRAM_SIZE
int
default 4194304 if SPIRAM_TYPE_ESPPSRAM32
default 8388608 if SPIRAM_TYPE_ESPPSRAM64
default 0
config SPIRAM_FETCH_INSTRUCTIONS
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bool "Cache fetch instructions from SPI RAM"
default n
help
If enabled, instruction in flash will be copied into SPIRAM.
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If SPIRAM_RODATA also enabled,
you can run the instruction when erasing or programming the flash.
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config SPIRAM_RODATA
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bool "Cache load read only data from SPI RAM"
default n
help
If enabled, radata in flash will be copied into SPIRAM.
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If SPIRAM_FETCH_INSTRUCTIONS also enabled,
you can run the instruction when erasing or programming the flash.
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config SPIRAM_USE_AHB_DBUS3
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bool "Enable AHB DBUS3 to access SPIRAM"
default n
help
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If Enabled, if SPI_CONFIG_SIZE is bigger then 10MB+576KB,
then you can have 4MB more space to map the SPIRAM.
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However, the AHB bus is slower than other data cache buses.
choice SPIRAM_SPEED
prompt "Set RAM clock speed"
default SPIRAM_SPEED_40M
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help
Select the speed for the SPI RAM chip.
If SPI RAM is enabled, we only support three combinations of SPI speed mode we supported now:
1. Flash SPI running at 40Mhz and RAM SPI running at 40Mhz
2. Flash SPI running at 80Mhz and RAM SPI running at 40Mhz
3. Flash SPI running at 80Mhz and RAM SPI running at 80Mhz
Note: If the third mode(80Mhz+80Mhz) is enabled for SPI RAM of type 32MBit, one of the HSPI/VSPI host
will be occupied by the system. Which SPI host to use can be selected by the config item
SPIRAM_OCCUPY_SPI_HOST. Application code should never touch HSPI/VSPI hardware in this case. The
option to select 80MHz will only be visible if the flash SPI speed is also 80MHz.
(ESPTOOLPY_FLASHFREQ_80M is true)
config SPIRAM_SPEED_80M
bool "80MHz clock speed"
config SPIRAM_SPEED_40M
bool "40Mhz clock speed"
config SPIRAM_SPEED_26M
bool "26Mhz clock speed"
config SPIRAM_SPEED_20M
bool "20Mhz clock speed"
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endchoice
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# insert non-chip-specific items here
source "$IDF_PATH/components/esp_common/Kconfig.spiram.common"
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endmenu
config ESP32S2_MEMMAP_TRACEMEM
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bool
default "n"
config ESP32S2_TRAX
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bool "Use TRAX tracing feature"
default "n"
select ESP32S2_MEMMAP_TRACEMEM
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help
The ESP32S2 contains a feature which allows you to trace the execution path the processor
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has taken through the program. This is stored in a chunk of 32K (16K for single-processor)
of memory that can't be used for general purposes anymore. Disable this if you do not know
what this is.
config ESP32S2_TRACEMEM_RESERVE_DRAM
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hex
default 0x8000 if ESP32S2_MEMMAP_TRACEMEM && ESP32S2_MEMMAP_TRACEMEM_TWOBANKS
default 0x4000 if ESP32S2_MEMMAP_TRACEMEM && !ESP32S2_MEMMAP_TRACEMEM_TWOBANKS
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default 0x0
choice ESP32S2_UNIVERSAL_MAC_ADDRESSES
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bool "Number of universally administered (by IEEE) MAC address"
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default ESP32S2_UNIVERSAL_MAC_ADDRESSES_TWO
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help
Configure the number of universally administered (by IEEE) MAC addresses.
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During initialization, MAC addresses for each network interface are generated or derived from a
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single base MAC address.
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If the number of universal MAC addresses is Two, all interfaces (WiFi station, WiFi softap) receive a
universally administered MAC address. They are generated sequentially by adding 0, and 1 (respectively)
to the final octet of the base MAC address. If the number of universal MAC addresses is one,
only WiFi station receives a universally administered MAC address.
It's generated by adding 0 to the base MAC address.
The WiFi softap receives local MAC addresses. It's derived from the universal WiFi station MAC addresses.
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When using the default (Espressif-assigned) base MAC address, either setting can be used. When using
a custom universal MAC address range, the correct setting will depend on the allocation of MAC
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addresses in this range (either 1 or 2 per device.)
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config ESP32S2_UNIVERSAL_MAC_ADDRESSES_ONE
bool "One"
select ESP_MAC_ADDR_UNIVERSE_WIFI_STA
config ESP32S2_UNIVERSAL_MAC_ADDRESSES_TWO
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bool "Two"
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select ESP_MAC_ADDR_UNIVERSE_WIFI_STA
select ESP_MAC_ADDR_UNIVERSE_WIFI_AP
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endchoice
config ESP32S2_UNIVERSAL_MAC_ADDRESSES
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int
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default 1 if ESP32S2_UNIVERSAL_MAC_ADDRESSES_ONE
default 2 if ESP32S2_UNIVERSAL_MAC_ADDRESSES_TWO
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config ESP32S2_ULP_COPROC_ENABLED
bool "Enable Ultra Low Power (ULP) Coprocessor"
default "n"
help
Set to 'y' if you plan to load a firmware for the coprocessor.
If this option is enabled, further coprocessor configuration will appear in the Components menu.
config ESP32S2_ULP_COPROC_RESERVE_MEM
int
prompt "RTC slow memory reserved for coprocessor" if ESP32S2_ULP_COPROC_ENABLED
default 512 if ESP32S2_ULP_COPROC_ENABLED
range 32 8192 if ESP32S2_ULP_COPROC_ENABLED
default 0 if !ESP32S2_ULP_COPROC_ENABLED
range 0 0 if !ESP32S2_ULP_COPROC_ENABLED
help
Bytes of memory to reserve for ULP coprocessor firmware & data.
Data is reserved at the beginning of RTC slow memory.
choice ESP32S2_PANIC
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prompt "Panic handler behaviour"
default ESP32S2_PANIC_PRINT_REBOOT
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help
If FreeRTOS detects unexpected behaviour or an unhandled exception, the panic handler is
invoked. Configure the panic handlers action here.
config ESP32S2_PANIC_PRINT_HALT
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bool "Print registers and halt"
help
Outputs the relevant registers over the serial port and halt the
processor. Needs a manual reset to restart.
config ESP32S2_PANIC_PRINT_REBOOT
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bool "Print registers and reboot"
help
Outputs the relevant registers over the serial port and immediately
reset the processor.
config ESP32S2_PANIC_SILENT_REBOOT
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bool "Silent reboot"
help
Just resets the processor without outputting anything
config ESP32S2_PANIC_GDBSTUB
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bool "Invoke GDBStub"
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select ESP_GDBSTUB_ENABLED
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help
Invoke gdbstub on the serial port, allowing for gdb to attach to it to do a postmortem
of the crash.
endchoice
config ESP32S2_DEBUG_OCDAWARE
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bool "Make exception and panic handlers JTAG/OCD aware"
default y
select FREERTOS_DEBUG_OCDAWARE
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help
The FreeRTOS panic and unhandled exception handers can detect a JTAG OCD debugger and
instead of panicking, have the debugger stop on the offending instruction.
config ESP32S2_DEBUG_STUBS_ENABLE
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bool "OpenOCD debug stubs"
default COMPILER_OPTIMIZATION_LEVEL_DEBUG
depends on !ESP32S2_TRAX
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help
Debug stubs are used by OpenOCD to execute pre-compiled onboard code which does some useful debugging,
e.g. GCOV data dump.
config ESP32S2_BROWNOUT_DET
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bool "Hardware brownout detect & reset"
default y
help
The ESP32S2 has a built-in brownout detector which can detect if the voltage is lower than
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a specific value. If this happens, it will reset the chip in order to prevent unintended
behaviour.
choice ESP32S2_BROWNOUT_DET_LVL_SEL
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prompt "Brownout voltage level"
depends on ESP32S2_BROWNOUT_DET
default ESP32S2_BROWNOUT_DET_LVL_SEL_0
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help
The brownout detector will reset the chip when the supply voltage is approximately
below this level. Note that there may be some variation of brownout voltage level
between each ESP32 chip.
#The voltage levels here are estimates, more work needs to be done to figure out the exact voltages
#of the brownout threshold levels.
config ESP32S2_BROWNOUT_DET_LVL_SEL_0
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bool "2.43V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_1
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bool "2.48V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_2
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bool "2.58V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_3
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bool "2.62V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_4
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bool "2.67V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_5
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bool "2.70V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_6
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bool "2.77V +/- 0.05"
config ESP32S2_BROWNOUT_DET_LVL_SEL_7
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bool "2.80V +/- 0.05"
endchoice
config ESP32S2_BROWNOUT_DET_LVL
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int
default 0 if ESP32S2_BROWNOUT_DET_LVL_SEL_0
default 1 if ESP32S2_BROWNOUT_DET_LVL_SEL_1
default 2 if ESP32S2_BROWNOUT_DET_LVL_SEL_2
default 3 if ESP32S2_BROWNOUT_DET_LVL_SEL_3
default 4 if ESP32S2_BROWNOUT_DET_LVL_SEL_4
default 5 if ESP32S2_BROWNOUT_DET_LVL_SEL_5
default 6 if ESP32S2_BROWNOUT_DET_LVL_SEL_6
default 7 if ESP32S2_BROWNOUT_DET_LVL_SEL_7
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# Note about the use of "FRC1" name: currently FRC1 timer is not used for
# high resolution timekeeping anymore. Instead the esp_timer API, implemented
# using FRC2 timer, is used.
# FRC1 name in the option name is kept for compatibility.
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choice ESP32S2_TIME_SYSCALL
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prompt "Timers used for gettimeofday function"
default ESP32S2_TIME_SYSCALL_USE_RTC_FRC1
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help
This setting defines which hardware timers are used to
implement 'gettimeofday' and 'time' functions in C library.
- If both high-resolution and RTC timers are used, timekeeping will
continue in deep sleep. Time will be reported at 1 microsecond
resolution. This is the default, and the recommended option.
- If only high-resolution timer is used, gettimeofday will
provide time at microsecond resolution.
Time will not be preserved when going into deep sleep mode.
- If only RTC timer is used, timekeeping will continue in
deep sleep, but time will be measured at 6.(6) microsecond
resolution. Also the gettimeofday function itself may take
longer to run.
- If no timers are used, gettimeofday and time functions
return -1 and set errno to ENOSYS.
- When RTC is used for timekeeping, two RTC_STORE registers are
used to keep time in deep sleep mode.
config ESP32S2_TIME_SYSCALL_USE_RTC_FRC1
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bool "RTC and high-resolution timer"
config ESP32S2_TIME_SYSCALL_USE_RTC
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bool "RTC"
config ESP32S2_TIME_SYSCALL_USE_FRC1
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bool "High-resolution timer"
config ESP32S2_TIME_SYSCALL_USE_NONE
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bool "None"
endchoice
choice ESP32S2_RTC_CLK_SRC
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prompt "RTC clock source"
default ESP32S2_RTC_CLK_SRC_INT_RC
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help
Choose which clock is used as RTC clock source.
config ESP32S2_RTC_CLK_SRC_INT_RC
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bool "Internal 150kHz RC oscillator"
config ESP32S2_RTC_CLK_SRC_EXT_CRYS
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bool "External 32kHz crystal"
endchoice
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config ESP32S2_RTC_CLK_CAL_CYCLES
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int "Number of cycles for RTC_SLOW_CLK calibration"
default 3000 if ESP32S2_RTC_CLK_SRC_EXT_CRYS
default 1024 if ESP32S2_RTC_CLK_SRC_INT_RC
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range 0 125000
help
When the startup code initializes RTC_SLOW_CLK, it can perform
calibration by comparing the RTC_SLOW_CLK frequency with main XTAL
frequency. This option sets the number of RTC_SLOW_CLK cycles measured
by the calibration routine. Higher numbers increase calibration
precision, which may be important for applications which spend a lot of
time in deep sleep. Lower numbers reduce startup time.
When this option is set to 0, clock calibration will not be performed at
startup, and approximate clock frequencies will be assumed:
- 150000 Hz if internal RC oscillator is used as clock source. For this use value 1024.
- 32768 Hz if the 32k crystal oscillator is used. For this use value 3000 or more.
In case more value will help improve the definition of the launch of the crystal.
If the crystal could not start, it will be switched to internal RC.
config ESP32S2_DISABLE_BASIC_ROM_CONSOLE
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bool "Permanently disable BASIC ROM Console"
default n
help
If set, the first time the app boots it will disable the BASIC ROM Console
permanently (by burning an eFuse).
Otherwise, the BASIC ROM Console starts on reset if no valid bootloader is
read from the flash.
(Enabling secure boot also disables the BASIC ROM Console by default.)
config ESP32S2_NO_BLOBS
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bool "No Binary Blobs"
depends on !BT_ENABLED
default n
help
If enabled, this disables the linking of binary libraries in the application build. Note
that after enabling this Wi-Fi/Bluetooth will not work.
endmenu # ESP32S2-Specific
menu "Power Management"
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# TODO: this component simply shouldn't be included
# in the build at the CMake level, but this is currently
# not working so we just hide all items here
visible if IDF_TARGET_ESP32S2BETA
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config PM_ENABLE
bool "Support for power management"
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 CONFIG_ESP32S2_DEFAULT_CPU_FREQ_MHZ setting,
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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_USE_RTC_TIMER_REF
bool "Use RTC timer to prevent time drift (EXPERIMENTAL)"
depends on PM_ENABLE && (ESP32S2_TIME_SYSCALL_USE_RTC || ESP32S2_TIME_SYSCALL_USE_RTC_FRC1)
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default n
help
When APB clock frequency changes, high-resolution timer (esp_timer)
scale and base value need to be adjusted. Each adjustment may cause
small error, and over time such small errors may cause time drift.
If this option is enabled, RTC timer will be used as a reference to
compensate for the drift.
It is recommended that this option is only used if 32k XTAL is selected
as RTC clock source.
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.
endmenu # "Power Management"