Espressif ESP32-C6

The ESP32-C6 is an ultra-low-power and highly integrated SoC with a RISC-V core and supports 2.4 GHz Wi-Fi 6, Bluetooth 5 (LE) and the 802.15.4 protocol.

  • Address Space - 800 KB of internal memory address space accessed from the instruction bus - 560 KB of internal memory address space accessed from the data bus - 1016 KB of peripheral address space - 8 MB of external memory virtual address space accessed from the instruction bus - 8 MB of external memory virtual address space accessed from the data bus - 480 KB of internal DMA address space

  • Internal Memory - 320 KB ROM - 512 KB SRAM (16 KB can be configured as Cache) - 16 KB of SRAM in RTC

  • External Memory - Up to 16 MB of external flash

  • Peripherals - 35 peripherals

  • GDMA - 7 modules are capable of DMA operations.

ESP32-C6 Toolchain

A generic RISC-V toolchain can be used to build ESP32-C6 projects. SiFive’s toolchain can be downloaded from: https://github.com/sifive/freedom-tools/releases

Second stage bootloader and partition table

The NuttX port for now relies on IDF’s second stage bootloader to carry on some hardware initializations. The binaries for the bootloader and the partition table can be found in this repository: https://github.com/espressif/esp-nuttx-bootloader That repository contains a dummy IDF project that’s used to build the bootloader and partition table, these are then presented as Github assets and can be downloaded from: https://github.com/espressif/esp-nuttx-bootloader/releases Download bootloader-esp32c6.bin and partition-table-esp32c6.bin and place them in a folder, the path to this folder will be used later to program them. This can be: ../esp-bins

Building and flashing

First make sure that esptool.py is installed. This tool is used to convert the ELF to a compatible ESP32-C6 image and to flash the image into the board. It can be installed with: pip install esptool.

Configure the NuttX project: ./tools/configure.sh esp32c6-devkit:nsh Run make to build the project. Note that the conversion mentioned above is included in the build process. The esptool.py command to flash all the binaries is:

esptool.py --chip esp32c6 --port /dev/ttyUSBXX --baud 921600 write_flash 0x0 bootloader.bin 0x8000 partition-table.bin 0x10000 nuttx.bin

However, this is also included in the build process and we can build and flash with:

make flash ESPTOOL_PORT=<port> ESPTOOL_BINDIR=../esp-bins

Where <port> is typically /dev/ttyUSB0 or similar and ../esp-bins is the path to the folder containing the bootloader and the partition table for the ESP32-C6 as explained above. Note that this step is required only one time. Once the bootloader and partition table are flashed, we don’t need to flash them again. So subsequent builds would just require: make flash ESPTOOL_PORT=/dev/ttyUSBXX

Peripheral Support

The following list indicates the state of peripherals’ support in NuttX:

Peripheral

Support

ADC

No

AES

No

Bluetooth

No

CAN/TWAI

No

DMA

No

ECC

No

eFuse

No

GPIO

No

HMAC

No

I2C

No

I2S

No

Int. Temp.

No

LED

No

LED_PWM

No

MCPWM

No

Pulse Counter

No

RMT

No

RNG

No

RSA

No

RTC

No

SD/MMC

No

SDIO

No

SHA

No

SPI

No

SPIFLASH

No

Timers

No

UART

Yes

Watchdog

Yes

Wifi

No

XTS

No

Supported Boards