The F6D45 force-torque sensor provides high-performance force and torque measurements over six axes: forces in the X, Y, and Z directions and torques about these axes. This compact sensor is designed for applications where precision in multiple force measurements is required, such as robotics, automation, and precision mechanical assemblies.
The Multi-Axis Sensor K6D110 is an advanced sensor that provides reliable force and torque measurements in six axes (X, Y, and Z forces and torques about these axes). This sensor is designed for applications where multi-dimensional precision and high reliability are required, such as robotics, quality control, and research and development environments.
The K6D80 force-torque sensor is an advanced sensor that provides precision force and torque measurements over six axes, including X, Y, and Z forces and rotational torques about these axes. Specifically designed for demanding industrial and research environments such as robotics, aerospace, and product development, the K6D80 provides a solution for situations where accurate multi-dimensional force measurements are necessary.
The K6D68 force-torque sensor is a precision sensor that measures both force and torque in six axes: X, Y, and Z forces and rotational torques about these axes. Designed for industrial and research environments, the K6D68 offers a solution for applications where multi-dimensional force and torque analysis is essential, such as robotics, automotive, and product development.
The K6D40 force-torque sensor is a compact and accurate sensor that measures both force and torque in six axes: X, Y, and Z forces, plus rotational torques about each axis. The K6D40's design makes it ideal for applications where precision and space-saving are essential, such as robotics, automation, and precision engineering.
The KM55 compressive force transducer is a compact and reliable solution for accurate force measurements in various industrial applications. This force transducer is designed for measuring compressive force in both static and dynamic applications, such as machines in the production and automation industry.
The KM40E compression force transducer is a high-performance sensor designed for accurate compression force measurements in a wide range of industrial applications. Thanks to its compact design and robust construction, the KM40E is ideal for environments where space is limited.
The 3-axis force sensor K3D400 is a powerful and reliable sensor, specially developed for the accurate measurement of forces in three directions (X, Y and Z). This sensor is ideal for applications where multiple force measurements are essential, such as robotics, quality control and complex mechanical engineering.
A 3-axis force sensor is an advanced measuring instrument that is essential for accurately measuring forces in three different directions. These sensors are designed for various industrial applications, including mechanical engineering, product development, and quality control. Due to their ability to record forces in multiple directions, 3-axis force sensors provide valuable insights into the performance of products and systems.
The 3-axis force sensor K3D160 is specially designed for accurately measuring forces in three directions: X, Y and Z axes. This compact and robust sensor offers a solution in situations where forces need to be analyzed simultaneously in multiple directions, such as in robotics, advanced measurement setups and quality control.
The K6D27 Multi-Axis Sensor provides precise measurements in six axes, including forces in the X, Y, and Z directions, as well as rotational torques about these axes. With its compact and robust design, the K6D27 is ideal for applications that require high precision in confined spaces, such as robotics, automation, and medical technology.
The K3D120 multi-axis force transducer is a high-performance sensor designed to measure forces in three directions (X, Y, and Z axes) with high accuracy. This sensor is ideal for applications requiring precise, three-dimensional force analysis, such as robotics, automation, and materials research.
