Basic Info.
Conductive Type
Bipolar Integrated Circuit
Technics
Semiconductor IC
Product Description
STM32 Development Board Designed For STM32F103Z Series, Features The STM32F103ZET6 MCU, And Integrates Various Standard Interfaces, Pretty Easy For Peripheral Expansions.
Overview
Open103Z is a STM32 development board that features a STM32F103ZET6 device as the microcontroller. It supports further expansion with various optional accessory boards for specific application. The modular and open design makes it the ideal for starting application development with STM32F family.
Note: Open103Z Standard includes only ONE accessory board -- PL2303 USB UART Board (mini).
What's On Board
- STM32F103ZET6:the high performance STM32 MCU in LQFP144 package which features
- Core: ARM Cortex-M3 32-bit RISC;
- Operating Frequency: 72MHz, 1.25 DMIPS/MHz;
- I/Os: 112;
- Operating Voltage: 2-3.6V;
- Memories: 512K Flash, 64K RAM (the highest specification in STM32F103Z series);
- Communication Interfaces: 3xSPI, 5xUSART, 2xI2S, 2xI2C, 1xFSMC, 1xLCD, 1xSDIO, 1xUSB, 1xCAN;
- AD & DA converters: 3xAD (12bit, 1μs, shares 21 channels); 2xDA (12bit);
- Debugging/Programming: supports JTAG/SWD (serial wire debug) interfaces, supports IAP;
- 74LVC139: Used for FSMC expansion, makes it possible to connect multi peripherals through FSMC at the same time, such as connecting a LCD and a NAND FLASH;
- AMS1117-3.3: 3.3V voltage regulator;
- Power supply switch: 5V DC or USB;
- Power indicator;
- LEDs: Convenient for indicating I/O status or program debugging running state;
- Reset button;
- User key;
- Joystick: Convenient for I/O input (five positions);
- 32.768K crystal oscillator: for internal RTC;
- 8M crystal oscillator: enables the MCU run at 72M frequency by frequency multiplication;
- SDIO Interface: connects to the Micro SD Board easily, It is much faster to read/write the Micro SD card via SDIO than via SPI;
- 8 I/O Interface: easily connects to keypad, motor, etc;
- CAN Interface: communicates with accessory boards which feature the CAN device conveniently;
- SPI Interface: easily connects to SPI peripherals such as FLASH (AT45DBxx), SD card, MP3, etc;
- I2C Interface: easily connects to I2C peripherals such as I/O expander(PCF8574), EEPROM (AT24Cxx), etc;
- NAND FLASH Interface: easily connects to the NAND FLASH peripherals;
- LCD Interface: easily connects to the touch screen LCD;
- ONE-WIRE Interface: easily connects to ONE-WIRE devices (TO-92 package), such as temperature sensor (DS18B20), electronic registration number (DS2401), etc.
- PS/2 Interface: easily connects to PS/2 keyboard or mouse;
- USART1 Interface: easily connects to RS232, RS485, USB TO 232;
- USART2 Interface: easily connects to RS232, RS485, USB TO 232;
- FSMC Interface: easily connects to FSMC interface, such as NorFlash (S29GL128P), SRAM (IS62WV51216BLL);
- USB Port: USB communication between board and PC;
- 5V DC jack;
- 5V/3.3 V power input/output;
- MCU pins connector: all the MCU pins are accessible on expansion connectors for further expansion;
- JTAG/SWD interface: for debugging/programming;
- Boot Mode Selection: for configuring the BOOT0 and BOOT1 pins;
- USB Enable Jumper
- Short the jumper to enable the PC auto detection while USB connecting;
- Open the jumper to disable;
- PS/2 Interface Jumper
- Short the jumper to connect the PS/2 device to default I/Os;
- Open the jumper to connect the PS/2 device to custom I/Os via DuPont wires;
- LEDs Jumper
- Short the jumper to connect the LEDs to default I/Os;
- Open the jumper to connect the LEDs to custom I/Os via DuPont wires;
- VBAT Selection Jumper
- Short the jumper to use system power supply;
- Open the jumper to connect the VBAT to external power, such as battery;
Photos
Note:
The Open103Z supports programming via STM32 USART bootloader, a USB TO UART accessory board is also provided in the package.
The Open103Z does NOT integrate any debugging function, a debugger is required.
The Open103Z Standard includes only ONE accessory board -- PL2303 USB UART Board (mini).
JTAG/SWD Interfaces
The figure 1, and 2 show the header pinouts of JTAG/SWD interface
Figure 1. JTAG Header Pinout
Figure 2. SWD Header Pinout
Development Resources
- Related softwares (KEIL etc.)
- Demo Code (examples in C, μC/OS-II)
- Schematic (PDF)
- STM32 Development documents (Datasheet etc.)
Address:
Bagualu No. 43, Shenzhen, Guangdong, China
Business Type:
Manufacturer/Factory
Business Range:
Electrical & Electronics
Management System Certification:
ISO 9001
Company Introduction:
Shenzhen waveshare electronics Co., Ltd is a high-tech enterprise, professional research and development and production of Raspberry Pi expansion board, Jetson Nano expansion board and HD LCD / OLED display products, product line more than 10, with independent core technology, innovation ability and good industry reputation, has a hundred intellectual property rights, has more than ten years of industry precipitation.