Description
MINI-M4 for STM32 is a small ARM Cortex-M4 development board containing STM32F415RG microcontroller. It is pin compatible with PIC16F887 and PIC18(L)F45K20 microcontrontrollers and it perfectly fits into standard DIP40 socket. Board is equipped with 16MHz SMD crystal oscillator, and 32.768KHz crystal which can be used for internal RTCC module. It has reset button and three signal LEDs.
Board comes preprogrammed with fast USB HID bootloader, so no external programmers are needed for development. It operates on 3.3V power supply. On-board voltage regulator allows the board to be powered directly from USB cable.
- STM32F415RG, ARM 32-bit Cortex-M4 CPU with FPU, 1MB Flash, 192+4K RAM. 0-wait state execution from Flash memory, frequency up to 168MHz, and DSP instructions
- USB 2.0 On-The-Go support Signal LEDs, Crystal oscillator and Reset Button on board
- Supports CAN communication
- Pin compatible with PIC16F887 and PIC18(L)F45K20
- Perfectly fits into DIP40 socket
- Comes preprogrammed with USB bootloader
- Fully supported in mikroE ARM compilers
FAQs:
Q: What microcontroller does the Mini-M4 STM32 board use?
A: The Mini-M4 STM32 board features the STM32F415RG microcontroller, a 32-bit ARM Cortex-M4F based MCU.
Q: Is the Mini-M4 STM32 compatible with other microcontrollers?
A: Yes, it is pin-compatible with PIC16F887 and PIC18(L)F45K20 microcontrollers, making it easier to transition or experiment with different architectures.
Q: What are the memory specifications of the Mini-M4 STM32 board?
A: The board has 1MB of Flash memory and 192+4KB of RAM.
Q: Do I need an external programmer to program the Mini-M4 STM32 board?
A: No, the board comes preprogrammed with a fast USB HID bootloader, allowing you to program it directly through the USB port without an external programmer.
Q: What is the power supply requirement for the Mini-M4 STM32 board?
A: The board operates on a 3.3V power supply. It can be powered directly through a USB cable, as it has an onboard voltage regulator. Alternatively, it can be powered through an external 3.3V source.
