Revolutionize your IoT projects with our versatile and powerful IOT Development Boards. These state-of-the-art boards are designed to accelerate the development of IoT devices, providing a robust, flexible, and scalable platform for innovation.
Our IOT Development Boards feature advanced microcontrollers and processors that offer unparalleled performance and efficiency. They come pre-loaded with a wide range of hardware peripherals, including sensors, communication modules, and storage options, to enable seamless connectivity, data processing, and communication across various platforms.
With support for a variety of programming languages and development environments, our IOT Development Boards make it easy to prototype, test, and deploy your IoT solutions. They are compatible with popular IoT frameworks and platforms, such as Arduino, Raspberry Pi, and more, allowing you to leverage a vast array of resources, libraries, and community support.
PCB Assembly
Box Building
Quick Response
Fast Delivery
What is a development board and what is it used for?
A development board is a printed circuit board with circuitry and hardware designed to facilitate experimentation with a microcontroller.
Typical Components of a Development Board
Power Circuit - Typically set to use a 9V supply
Programming interface - lets you program microcontrollers from a computer
Basic input - usually a button
Basic output - usually LED
I/O pins - for motors, temperature sensors, LCD screens, etc.
Key Features That Must Be Included in a Development Board
Some important features included in the IOT development boards:
1. Processing capability. This can be in the form of a CPU, microcontroller, FPGA or other CPLD. Since many manufacturers provide the IDE you need, microcontrollers can easily program your device.
2. Wireless function. This feature provides wireless communication without the need to include an external transceiver module. Some common protocols include Bluetooth, Zigbee, WiFi, etc.
3. Scalability. This special feature allows more functionality to be added to the board? You can verify that the board is communicating via GPIO, UART, SPI or other protocols; as this will determine how the board will interact with other devices.
4. Memory. On-board memory is important. To store large amounts of data, you need built-in flash memory. A decent board allows connecting a MiniSD or MicroSD card for enhanced data storage.
Feel free to fill out our contact form below and our support team will get back to you within 24 hours.
We use cookies to collect information about how you use this site. We use this information to make the website work as well as possible and improve our services.more details
