# # For a description of the syntax of this configuration file, # see the file kconfig-language.txt in the NuttX tools repository. # if ARCH_BOARD_GD32F450ZK_EVAL choice prompt "Select Console wiring." default GD32F450ZK_EVAL_CONSOLE_BOARD ---help--- Select where you will connect the console. Virtual COM Port: Advantage: Use the ST-Link as a console. No Extra wiring needed. Disadvantage: Not the best choice for initial bring up. BOARD USART Connector: Advantage: You have a shield so it is easy. Disadvantage: You loose the use of the other functions on PA9, PA10 GD32F450ZK_EVAL USART0 GPIO -- ----- --------- ---- RX USART0_RX PA10 TX USART0_TX PA9 -- ----- --------- --- config GD32F450ZK_EVAL_CONSOLE_BOARD bool "Eval Com Connector" select GD32_USART0 select USART0_SERIALDRIVER config GD32F450ZK_EVAL_CONSOLE_VIRTUAL bool "Virtual Comport" select GD32_USART3 select USART3_SERIALDRIVER config GD32F450ZK_EVAL_CONSOLE_NONE bool "No Console" endchoice # "Select Console wiring" choice prompt "GD32F4 MCU Crystal Selected" default GD32F4_BOARD_USE_HXTAL config GD32F4_BOARD_USE_HXTAL bool "Use Hxtal as clock source" # select GD32F4_BOARD_HXTAL_VALUE config GD32F4_BOARD_USE_IRC16 bool "Use IRC16M as clock source" endchoice # CPU Frequency config GD32F4_BOARD_HXTAL_VALUE int "GD32F450Z Eval Board Hxtal Value" default 25000000 depends on GD32F4_BOARD_USE_HXTAL ---help--- GD32F450Z Eval Board Hxtal Value, default is 25MHz. choice prompt "GD32F4 MCU System Frequency" default GD32F4_200MHZ config GD32F4_200MHZ bool "200 MHz" config GD32F4_168MHZ bool "168 MHz" config GD32F4_120MHZ bool "120 MHz" endchoice # CPU Frequency config GD32F450ZK_EVAL_GD25_BLOCKMOUNT bool "GD25 serial FLASH auto-mount" default n depends on GD32F4_SPI5 && MTD_GD25 ---help--- Automatically initialize the GD25 SPI FLASH driver when NSH starts. choice prompt "GD25 SPI FLASH configuration" default GD32F450ZK_EVAL_GD25_NXFFS depends on GD32F450ZK_EVAL_GD25_BLOCKMOUNT config GD32F450ZK_EVAL_GD25_FTL bool "Create GD25 SPI FLASH block driver" ---help--- Create the MTD driver for the GD25 and "wrap" the GD25 as a standard block driver that could then, for example, be mounted using FAT or any other file system. Any file system may be used, but there will be no wear-leveling. config GD32F450ZK_EVAL_GD25_NXFFS bool "Create GD25 serial FLASH NXFFS file system" depends on FS_NXFFS ---help--- Create the MTD driver for the GD25 and mount the GD25 device as a wear-leveling, NuttX FLASH file system (NXFFS). The downside of NXFFS is that it can be very slow. endchoice # GD25 serial FLASH configuration config GD32F450ZK_EVAL_AT24_TEST bool "I2C0 EEPROM AT2402 write and read test" default n depends on NSH_ARCHINIT && GD32F4_I2C0 && MTD_AT24XX ---help--- Automatically initialize and test the AT24 I2C EEPROM driver when NSH starts. After test the I2C0 will be released. config AT24XX_MTD_BLOCKSIZE int "AT24xx MTD block size" default 8 depends on GD32F450ZK_EVAL_AT24_TEST ---help--- The block size must be an even multiple of the pages. The page size of AT2402 on the board is 8 Byte. endif # ARCH_BOARD_GD32F450ZK_EVAL