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Lidar (Light Detection and Ranging) is a technology that uses laser light to precisely measure distances. Lidar laser scanners are used in many industries – from automotive to geodesy – and their ability to create three-dimensional maps of the surface of the terrain or objects makes them uniquely applicable in modern engineering and technological applications.
Rotary encoders are devices used to measure the angle of rotation, rotational speed and position in machines and automation systems. They enable precise monitoring of movement in industrial applications, robotics, and everyday devices. In this article, we will discuss the most popular types of rotary encoders: magnetic and optical, and their applications.
Pressure transducers are measuring devices that convert pressure into an electrical signal. In practice, they are used to precisely monitor and control the pressure level in various industrial and technological processes. These transducers are widely used in many industries, such as the chemical, food, pharmaceutical and oil industries, where pressure control is crucial for the proper operation of machines and processes.
Digital readouts are devices that allow for the precise measurement and display of linear or angular displacements on a digital display. Instead of relying on traditional, manual measurement methods, digital readouts collect data from scales (optical encoders or magnetic scales) and convert it into user-readable values.
Laser displacement sensors are gaining popularity in many industries due to their precision, speed and reliability. These are advanced devices that measure the distance or change in the position of an object, which are used in many different applications, from production, through quality control, to process automation. In the following post, we will discuss the key applications of laser displacement sensors and why it is worth implementing them in modern measurement systems.
In the world of modern measurement technologies, magnetic scales play a key role, especially in precision industrial and engineering applications. Although this technology is not new, its application and possibilities are developing dynamically, especially in automation, robotics and machining. In this article, we will look at what magnetic scales are, how they work, where they are used and what their key advantages are.
Modern production systems require advanced control technologies that allow for the automation of processes with unprecedented precision. One of the most important elements of this revolution is CNC control (English: Computer Numerical Control) and servo motors and drivers.
Optical scales are precision devices used to measure linear position. They use optical technology that allows for very accurate and reliable distance measurements. They are widely used in CNC machines, lathes, milling machines and other advanced industrial equipment where measurement accuracy is key.
Strain gauges (also known as strain gauges) are key components in many industries, especially where accurate measurement of forces, stresses and deformations is essential. Their applications range from mechanical engineering to medicine to scientific research.
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