• -40%

STM32G030F6P6 Fejlesztési tábla STM32G030 MCU Minimális rendszertábla Oktatótábla Értékelő tábla

STM32G030F6P6 Fejlesztési tábla STM32G030 MCU Minimális rendszertábla Oktatótábla Értékelő tábla

516 Ft 40% megtakarítás
860 Ft
Nincs adó
 
Product Introduction
 
This product is an ARM-Cortex-M0 core board based on the STM32F030R8T6 chip.
1. The core board provides the most basic circuit for the normal operation of the STM32F030R8T6 chip, including external high-speed crystal oscillator (8MHz) circuit, power management circuit (ME6211C33M5G), debug interface (SWD mode), BOOT selection circuit, etc.
2. This core board provides close to all available port resources, including all I/O port resources except PF0, reset I/O port resources, B00T selection port resources, etc.;
3. The core board provides a power monitoring LED (PWR_ LED) and a chip running indicator (with the PC13 pin control in STM32F030R8T6, if the pin is short, you need to use the PC13 pin, just disconnect the PC13_ LED);
4. Power supply mode:
1. You can choose to supply power through the core board. The onboard USB-Micro interface;
2. Connect to the SWD interface through the debugging device for power supply (2.7V-3.6V);
3. Connect to the port corresponding to the silk screen 5V (5V-12V) through the external power supply;
4. It is not recommended to use multiple power supply methods at the same time. Cross power supply may easily cause the core board or debugger to short-circuit and burn
5. In order to save the volume of the core board, the core board provides an SWD program download/debugging interface, and supports the SW mode of JLINK, ST-LINK, DAPLINK and other common debuggers for debugging and program download;
6. The core board provides the RTC clock crystal oscillator, and the power interface required by the RTC is led out (the core board silk screen layer "VBAT" corresponds to the pin);
7. The core board provides a reset button for users to conveniently reset during device debugging (in addition, the reset pin is also drawn, and the core board silk screen layer "R" corresponds to the pin)
8. The core advantage of the core board is to provide users with the needs of rapid project deployment and as many internal chip resources as possible. Therefore, we did not add any modules on the core board that users may not use and users seize resources to truly experience the core board. The "core" value.
9. All pins of the core board are led out through 2.54mm pitch row holes. The corresponding 2.54mm header pins are provided free of charge. The B0OT selection pins and the SWD program download/debugging interface have been soldered by default;
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STM32G030F6P6 Fejlesztési tábla STM32G030 MCU Minimális rendszertábla Oktatótábla Értékelő tábla
STM32G030F6P6 Development Board STM32G030 MCU Minimal System Board Learning Board Evaluation Board
 
Product Introduction
 
This product is an ARM-Cortex-M0 core board based on the STM32F030R8T6 chip.
1. The core board provides the most basic circuit for the normal operation of the STM32F030R8T6 chip, including external high-speed crystal oscillator (8MHz) circuit, power management circuit (ME6211C33M5G), debug interface (SWD mode), BOOT selection circuit, etc.
2. This core board provides close to all available port resources, including all I/O port resources except PF0, reset I/O port resources, B00T selection port resources, etc.;
3. The core board provides a power monitoring LED (PWR_ LED) and a chip running indicator (with the PC13 pin control in STM32F030R8T6, if the pin is short, you need to use the PC13 pin, just disconnect the PC13_ LED);
4. Power supply mode:
1. You can choose to supply power through the core board. The onboard USB-Micro interface;
2. Connect to the SWD interface through the debugging device for power supply (2.7V-3.6V);
3. Connect to the port corresponding to the silk screen 5V (5V-12V) through the external power supply;
4. It is not recommended to use multiple power supply methods at the same time. Cross power supply may easily cause the core board or debugger to short-circuit and burn
5. In order to save the volume of the core board, the core board provides an SWD program download/debugging interface, and supports the SW mode of JLINK, ST-LINK, DAPLINK and other common debuggers for debugging and program download;
6. The core board provides the RTC clock crystal oscillator, and the power interface required by the RTC is led out (the core board silk screen layer "VBAT" corresponds to the pin);
7. The core board provides a reset button for users to conveniently reset during device debugging (in addition, the reset pin is also drawn, and the core board silk screen layer "R" corresponds to the pin)
8. The core advantage of the core board is to provide users with the needs of rapid project deployment and as many internal chip resources as possible. Therefore, we did not add any modules on the core board that users may not use and users seize resources to truly experience the core board. The "core" value.
9. All pins of the core board are led out through 2.54mm pitch row holes. The corresponding 2.54mm header pins are provided free of charge. The B0OT selection pins and the SWD program download/debugging interface have been soldered by default;
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1005004207190270.

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STM32G030F6P6 Fejlesztési tábla STM32G030 MCU Minimális rendszertábla Oktatótábla Értékelő tábla

 
Product Introduction
 
This product is an ARM-Cortex-M0 core board based on the STM32F030R8T6 chip.
1. The core board provides the most basic circuit for the normal operation of the STM32F030R8T6 chip, including external high-speed crystal oscillator (8MHz) circuit, power management circuit (ME6211C33M5G), debug interface (SWD mode), BOOT selection circuit, etc.
2. This core board provides close to all available port resources, including all I/O port resources except PF0, reset I/O port resources, B00T selection port resources, etc.;
3. The core board provides a power monitoring LED (PWR_ LED) and a chip running indicator (with the PC13 pin control in STM32F030R8T6, if the pin is short, you need to use the PC13 pin, just disconnect the PC13_ LED);
4. Power supply mode:
1. You can choose to supply power through the core board. The onboard USB-Micro interface;
2. Connect to the SWD interface through the debugging device for power supply (2.7V-3.6V);
3. Connect to the port corresponding to the silk screen 5V (5V-12V) through the external power supply;
4. It is not recommended to use multiple power supply methods at the same time. Cross power supply may easily cause the core board or debugger to short-circuit and burn
5. In order to save the volume of the core board, the core board provides an SWD program download/debugging interface, and supports the SW mode of JLINK, ST-LINK, DAPLINK and other common debuggers for debugging and program download;
6. The core board provides the RTC clock crystal oscillator, and the power interface required by the RTC is led out (the core board silk screen layer "VBAT" corresponds to the pin);
7. The core board provides a reset button for users to conveniently reset during device debugging (in addition, the reset pin is also drawn, and the core board silk screen layer "R" corresponds to the pin)
8. The core advantage of the core board is to provide users with the needs of rapid project deployment and as many internal chip resources as possible. Therefore, we did not add any modules on the core board that users may not use and users seize resources to truly experience the core board. The "core" value.
9. All pins of the core board are led out through 2.54mm pitch row holes. The corresponding 2.54mm header pins are provided free of charge. The B0OT selection pins and the SWD program download/debugging interface have been soldered by default;

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