# MCUZone AT32UC3B0256 mini development board ## Introduction **The AVR32 is a high performance, low power 32-bit Atmel AVR microcontroller.** This board support package supports the MCUZone AVR32 mini development board (also known as the AVR32DEV1). The development board uses the AT32UC3B0256 microcontroller. ![board-snap](figures/board-snap.png) Note: Unfortunately, the online link for the development board (both MCUZone OR Aliexpress) doesn't work. I don't have access to the schematic (OR Gerber information) for this development kit. I used a multimeter to look for the connected pins. If you - the reader - do have access to the schematic/pinouts, could you please reach out to me? This README is essentially a work-in-progress. I will try to map the berg rows (J1 and J2) and document them as and when I further the device driver base for the target. If you feel like reaching out to me for questions pertaining to the target development board, you can write to me: ramangopalan AT gmail dot com. ## Supported compiler This BSP is built with the AVR32 GCC that comes with the Microchip Studio. I am using the Microchip Studio version 7.0.2594. Make sure that avr32-gcc.exe is visible on your command line. Add the binary directory to you PATH. Yes, on Windows. Sorry :( ![env-windows-avr32-gcc](figures/env-windows-avr32-gcc.png) I use Git Bash (Windows) for compiling the RT-Thread system. Once you set your path correctly, invoke Git Bash to query avr32-gcc.exe's version. The output should look similar to this: ```bash $ avr32-gcc.exe --version avr32-gcc.exe (AVR_32_bit_GNU_Toolchain_3.4.2_435) 4.4.7 Copyright (C) 2010 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. ``` If you see this, you're all set to compile RT-Thread for AT32UC3B0256. ## Program firmware ### Step 1: download the RT-Thread codebase and navigate to bsp/avr32uc3b0. ```bash $ cd bsp/avr32uc3b0/ ``` ### Step 2: build ```bash scons -c scons ``` ### Step 3: flash If everything went well, scons should have generated an elf file: rtthread-uc3b0256.elf. Let us program the file. The program `atprogram' comes with Microchip Studio. I didn't have to do much here. Just make sure `atprogram.exe' is in your PATH. ```bash atprogram -t atmelice -i jtag -d at32uc3b0256 program -f rtthread-uc3b0256.elf ``` Note that you should already see the on-board LEDs (PA7, PA8) blink if your programming was successful. I use the Atmel ICE programmer. To access msh, you'll need an FTDI breakout board. Connect the target board to the FTDI breakout with jumper wires: - GND (FTDI) to GND (development board) - RX (FTDI) to J2, pin 10. - TX (FTDI) to J2, pin 7. ## Running Result The output information on serial port for `ps' the command should look like this: ```bash 0x000003c0 tidle0 31 ready 0x00000054 0x00000100 67% 0x00000009 OK 0x00001650 tshell 20 running 0x000000b4 0x00001000 13% 0x0000000a OK 0x00000ac4 led2 5 suspend 0x0000007c 0x00000400 12% 0x0000000a EINTRPT 0x00001350 led1 5 suspend 0x0000007c 0x00000400 12% 0x00000005 EINTRPT ``` ## Peripheral Support | Drive | Support | Remark | | ----- | ------- | ------- | | UART | Support | UART0/1 | | GPIO | - | - | | I2C | - | - | | RTC | - | - | | SPI | - | - | | TIMER | - | - | | WDT | - | - |