esp-idf/components/esp32c3/Kconfig

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menu "ESP32C3-Specific"
visible if IDF_TARGET_ESP32C3
choice ESP32C3_DEFAULT_CPU_FREQ_MHZ
prompt "CPU frequency"
default ESP32C3_DEFAULT_CPU_FREQ_40 if IDF_ENV_FPGA
default ESP32C3_DEFAULT_CPU_FREQ_160 if !IDF_ENV_FPGA
help
CPU frequency to be set on application startup.
config ESP32C3_DEFAULT_CPU_FREQ_40
bool "40 MHz"
depends on IDF_ENV_FPGA
config ESP32C3_DEFAULT_CPU_FREQ_80
bool "80 MHz"
config ESP32C3_DEFAULT_CPU_FREQ_160
bool "160 MHz"
endchoice
config ESP32C3_DEFAULT_CPU_FREQ_MHZ
int
default 40 if ESP32C3_DEFAULT_CPU_FREQ_40
default 80 if ESP32C3_DEFAULT_CPU_FREQ_80
default 160 if ESP32C3_DEFAULT_CPU_FREQ_160
choice ESP32C3_UNIVERSAL_MAC_ADDRESSES
bool "Number of universally administered (by IEEE) MAC address"
default ESP32C3_UNIVERSAL_MAC_ADDRESSES_TWO
help
Configure the number of universally administered (by IEEE) MAC addresses.
During initialization, MAC addresses for each network interface are generated or derived from a
single base MAC address.
- If the number of universal MAC addresses is Three, all interfaces (WiFi station, WiFi softap
and Bluetooth) receive a universally administered MAC address. They are generated sequentially by adding
0, 1 and 2 (respectively) to the final octet of the base MAC address. The remaining one interface
(Ethernet) receives local MAC addresses which is derived from the universal WiFi softap MAC.
- If the number of universal MAC addresses is Two, only two interfaces (WiFi station and Bluetooth)
receive a universally administered MAC address. These are generated sequentially by adding 0
and 1 (respectively) to the base MAC address. The remaining two interfaces (WiFi softap and Ethernet)
receive local MAC addresses. These are derived from the universal WiFi station and Bluetooth MAC
addresses, respectively.
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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
addresses in this range (either 2 or 3 per device.)
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config ESP32C3_UNIVERSAL_MAC_ADDRESSES_TWO
bool "Two"
select ESP_MAC_ADDR_UNIVERSE_WIFI_STA
select ESP_MAC_ADDR_UNIVERSE_BT
config ESP32C3_UNIVERSAL_MAC_ADDRESSES_THREE
bool "Three"
select ESP_MAC_ADDR_UNIVERSE_WIFI_STA
select ESP_MAC_ADDR_UNIVERSE_WIFI_AP
select ESP_MAC_ADDR_UNIVERSE_BT
endchoice
config ESP32C3_UNIVERSAL_MAC_ADDRESSES
int
default 2 if ESP32C3_UNIVERSAL_MAC_ADDRESSES_TWO
default 3 if ESP32C3_UNIVERSAL_MAC_ADDRESSES_THREE
config ESP_MAC_ADDR_UNIVERSE_BT_OFFSET
int
default 2 if ESP32C3_UNIVERSAL_MAC_ADDRESSES_THREE
default 1 if ESP32C3_UNIVERSAL_MAC_ADDRESSES_TWO
config ESP32C3_DEBUG_OCDAWARE
bool "Make exception and panic handlers JTAG/OCD aware"
default y
select FREERTOS_DEBUG_OCDAWARE
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 ESP32C3_DEBUG_STUBS_ENABLE
bool "OpenOCD debug stubs"
default COMPILER_OPTIMIZATION_LEVEL_DEBUG
depends on !ESP32C3_TRAX
help
Debug stubs are used by OpenOCD to execute pre-compiled onboard code which does some useful debugging,
e.g. GCOV data dump.
config ESP32C3_BROWNOUT_DET
bool "Hardware brownout detect & reset"
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default y
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help
The ESP32-C3 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 ESP32C3_BROWNOUT_DET_LVL_SEL
prompt "Brownout voltage level"
depends on ESP32C3_BROWNOUT_DET
default ESP32C3_BROWNOUT_DET_LVL_SEL_7
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
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between each chip.
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#The voltage levels here are estimates, more work needs to be done to figure out the exact voltages
#of the brownout threshold levels.
config ESP32C3_BROWNOUT_DET_LVL_SEL_7
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bool "2.51V"
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config ESP32C3_BROWNOUT_DET_LVL_SEL_6
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bool "2.64V"
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config ESP32C3_BROWNOUT_DET_LVL_SEL_5
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bool "2.76V"
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config ESP32C3_BROWNOUT_DET_LVL_SEL_4
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bool "2.92V"
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config ESP32C3_BROWNOUT_DET_LVL_SEL_3
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bool "3.10V"
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config ESP32C3_BROWNOUT_DET_LVL_SEL_2
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bool "3.27V"
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endchoice
config ESP32C3_BROWNOUT_DET_LVL
int
default 2 if ESP32C3_BROWNOUT_DET_LVL_SEL_2
default 3 if ESP32C3_BROWNOUT_DET_LVL_SEL_3
default 4 if ESP32C3_BROWNOUT_DET_LVL_SEL_4
default 5 if ESP32C3_BROWNOUT_DET_LVL_SEL_5
default 6 if ESP32C3_BROWNOUT_DET_LVL_SEL_6
default 7 if ESP32C3_BROWNOUT_DET_LVL_SEL_7
choice ESP32C3_TIME_SYSCALL
prompt "Timers used for gettimeofday function"
default ESP32C3_TIME_SYSCALL_USE_RTC_SYSTIMER
help
This setting defines which hardware timers are used to
implement 'gettimeofday' and 'time' functions in C library.
- If both high-resolution (systimer) 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 (systimer) 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 ESP32C3_TIME_SYSCALL_USE_RTC_SYSTIMER
bool "RTC and high-resolution timer"
select ESP_TIME_FUNCS_USE_RTC_TIMER
select ESP_TIME_FUNCS_USE_ESP_TIMER
config ESP32C3_TIME_SYSCALL_USE_RTC
bool "RTC"
select ESP_TIME_FUNCS_USE_RTC_TIMER
config ESP32C3_TIME_SYSCALL_USE_SYSTIMER
bool "High-resolution timer"
select ESP_TIME_FUNCS_USE_ESP_TIMER
config ESP32C3_TIME_SYSCALL_USE_NONE
bool "None"
select ESP_TIME_FUNCS_USE_NONE
endchoice
choice ESP32C3_RTC_CLK_SRC
prompt "RTC clock source"
default ESP32C3_RTC_CLK_SRC_INT_RC
help
Choose which clock is used as RTC clock source.
config ESP32C3_RTC_CLK_SRC_INT_RC
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bool "Internal 90kHz RC oscillator"
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config ESP32C3_RTC_CLK_SRC_EXT_CRYS
bool "External 32kHz crystal"
select ESP_SYSTEM_RTC_EXT_XTAL
config ESP32C3_RTC_CLK_SRC_EXT_OSC
bool "External 32kHz oscillator at 32K_XP pin"
config ESP32C3_RTC_CLK_SRC_INT_8MD256
bool "Internal 8MHz oscillator, divided by 256 (~32kHz)"
endchoice
config ESP32C3_RTC_CLK_CAL_CYCLES
int "Number of cycles for RTC_SLOW_CLK calibration"
default 3000 if ESP32C3_RTC_CLK_SRC_EXT_CRYS || ESP32C3_RTC_CLK_SRC_EXT_OSC || ESP32C3_RTC_CLK_SRC_INT_8MD256
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default 576 if ESP32C3_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:
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- 90000 Hz if internal RC oscillator is used as clock source. For this use value 1024.
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- 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 ESP32C3_NO_BLOBS
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 # ESP32C3-Specific