Introduction to MIKROE-1723

The MIKROE-1723 board, also known as the Click Board, gives users the ability to quickly and painlessly connect a more complete and detailed World. The board enables developers to make use of various sensors with just one or two clicks. The board comes with a wide range of different types of sensors which give the user the flexibility to measure various aspects of the environment.

Application field of MIKROE-1723

The MIKROE-1723 board is suitable for many different application fields thanks to its embedded sensors. The board\'s main functions include but aren\'t limited to, data collection and analysis. For example, the board can be used to measure environmental parameters such as temperature, humidity, and pressure. Furthermore, it can be used to measure air quality, gauge changes in light intensity, measure vibration, and even detect movement. The board can also be used to measure sound levels, scan barcodes, detect light colors, and estimate distance, making it suitable for both indoor and outdoor applications.

Sensors Functionality

Each of the board\'s sensors has its own set of functions that can be utilized by applications. Firstly, the board\'s temperature sensor measures temperature in Celsius, Fahrenheit, and Kelvin. The pressure sensor is used to measure air pressure in hPa, kPa, bar, and Pa. It also uses a three-axis accelerometer, which is used to detect movement and acceleration in all directions. Additionally, the board has sensors to measure humidity, air quality, and light intensity. The barcode scanner enables the user to quickly read bar codes. Finally, the board is also capable of detecting sound, detecting light colors, and estimating distances.

Working Principle

The MIKROE-1723 board uses a variety of sensors to measure various environmental parameters. Firstly, the sensors on the board detect the parameters and then convert them into digital signals. These signals are then processed by the board and sent to the main processor, which can then be used by applications. The data is then analyzed and suitable actions can be taken. For example, an application might be programmed to automatically shut down an appliance if the temperature of a room reaches a certain limit.

Conclusion

The MIKROE-1723 board gives users the ability to quickly and painlessly connect a more complete and detailed world. With its wide range of embedded sensors, the board is suitable for many different application fields. Each sensor is capable of measuring various environmental parameters, and the board processes these data and sends it to the main processor, which can be used by applications.