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STM32F103C6T6 ARM STM32 Minimum System Development Board (Clone chip)

STM32F103C6T6 ARM STM32 Minimum System Development Board

STM32F103C6T6 ARM STM32 Minimum System Development Board

STM32F103C6T6 (Clone) Minimum System Development Board

Chip used is Clone, but Compatible with Arduino IDE

Wouldn’t work with STM32CubeIDE

This is a core chip based on for CS32F103C8T6 ARM core board, features are as follows:
1, the board based on the most basic MCU circuit, 8M and 32768 crystal circuit, USB power supply circuit.
2, the core board is divided into two rows leads to all the I / O port.
3, with SWD simulation debug download interface, simple and convenient, debugging speed.
4, the use of the Mirco USB interface, you can do USB communication and power supply, USB interface, compatible with the ordinary Andrews mobile phone charger interface.
6, RTC crystal Epson brand, easy to start, more stable.
7, with double pin, but the pin does not default welding, the user according to their own application scenarios to choose their own welding direction. If welding is required, please tell the owner.
Keil can be used to compile, IAR compiler, can be downloaded through the J-Link or USART1 procedures, the procedures are the owner and debugging procedures, there are problems can consult the owner.

Chip Description:
1, 32F103C8T6
Package Type: LQFP;
Number of pins: 48;
Kernel: Cortex-M3;
Operating frequency: 72MHz;
Storage resources: 64K Byte Flash, 20KByte SRAM;
Interface Resources: 2x SPI, 3x USART, 2x I2C, 1x CAN, 37x I / O ports,
Analog to digital conversion: 2x ADC (12-bit / 16-channel)
Timers: 3 general timers and 1 advanced timer
Debug Download: Support JTAG / SWD debug interface to download, support for IAP.
2, RT9193: 3.3V regulator chip, the maximum output of 300mA.
Interface description:
1, SWD interface: support for simulation, download and debug.
2, Mirco USB interface: power supply and USB communication, does not support the download.
3, USART1 interface: USART1 can be used to download the program, or use the USART1 for communication.
4, MCU pin interface: leads all I / O port pins, easy to connect with peripherals.
5, 5V and 3.3V power input and output interface: commonly used in external power supply, or with other modules for common ground treatment
Other Device Description:
1, Power LED (PWR): Power indicator status, can determine whether the power supply is stable.
2, the user LED (PC13): to facilitate the I / O output test or indicate the program running.
3, start jumping choose programming mode: (1, the user flash memory 2, SRAM 3, system memory).
4, reset button: reset chip for the user program.
5, 8M Crystal: The frequency can be set to make the system clocked at 72MHz.

6,32.768KHz Crystal: Available for built-in RTC, or for calibration.

Link V2 Mini STM8 Simulator Download
Specifications
l Input voltage (USB): 5V
l Output Voltages: 3.3V, 5V
l Interfaces: SWIM, SWD
l Connectors: USB, 10 pin (molex type)
l Dimensions: 57mm x 20mm x 8mm[2.2in x 0.7in x 0.3in]

The Link V2 programmer supports STM8 and STM32 microcontrollers

The module supports automatic firmware upgrades to ensure the maintenance of ST products. The factory firmware has been updated to the latest version V2.J17.S4.

2×5 headers 2.54 mm (0.1 in) apart, including cables (4 f-f jumper wires)

USB 2.0 full speed compatible interface

! WARNING: STM32 chips run on 3.3V, most breakout boards will include a voltage regulator so it can be powered from USB, and STLink dongles will provide a 3.3V VCC pin to power up the chip.

! Do not connect the board to the PC using USB while the chip is powered up using the Link V2 programmer!

! Connect one or another, but not both simultaneously. The Link V2 dongle provides a 5V pin as well. It is not going to be used because the STM32 chips are not 5V tolerant, the 3.3V pin has to be used only.

Can be programmed with ST-Link V2 Emulator Mini Debugger and Programming Unit STM8 STM32 compatible with Arduino

Chip is Clone but Compatible with Arduino IDE

Wouldn’t work with STM32CubeIDE

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