The first Arduino board was developed in the “Ivrea Interaction Design Institute” proposed for any students those who doesn’t have an electronics background and also programming concepts. Arduino board started changing to adapt to new requirements and challenges, isolating its present from simple 8-bit boards for different applications such as 3D printing, IoT product (Internet of Things) applications, wearable, and embedded environs. All types of Arduino boards are completely open-source, letting users design them individually and finally adapt them to their particular requirements. Over the years these boards have been used to make Arduino-based projects, from daily things too complex scientific tools. An international community of Arduino designers, performers, programmers, students, hobbyists, and specialists has gotten organized around this open source stage, their contributions have added up to an incredible amount of accessible knowledge that can be of huge help to learners and experts alike.
What is an Arduino Board?
Arduino board is an open-source platform used to make various engineering projects. It comprises of both a microcontroller and also a part of the software or IDE (Integrated Development Environment) that runs on your personal computer, used to write computer code and upload to the physical board. Arduino board has become very famous with inventors or beginners just starting out with electronics, and for an outstanding cause.
Unlike most previous programmable circuit boards, these boards don’t need a separate portion of the hardware in order to program a fresh code onto the board you can just use a USB cable. As well, this board IDE uses a basic type of C++, making it simpler to learn the program. At last, Arduino board offers a usual form factor that breaks out the tasks of the microcontroller into a more existing package.
Purpose of Arduino Boards
These boards have been used for making various electrical and electronic engineering projects.The software on this board is very simple to use for learners, yet flexible adequate for innovative users. It runs on windows, Mac and Linux. Teachers & students in the schools use it to make low-cost scientific tools to confirm the principles of physics and chemistry. There are several other microcontroller platforms available for physical computing. The Netmedia’s BX-24, MIT’s Handyboard, Parallax Basic Stamp, Phidget and various others present related functionality.
Arduino board also makes simpler the working procedure of microcontroller, but it gives some benefits over other systems for beginners, teachers, and students.
- Modest, perfect programming environment
- Open source, extensible hardware, and software