In addition to prosthesis control, the magnetic field sensor from Q.ANT also offers great potential for a wide range of industrial applications. Its high sensitivity and precision enable the measurement of the finest magnetic fields, which are relevant in various areas, such as the intuitive and natural control of exoskeletons and robots, which open up new possibilities for movement and support in everyday life for people with limited mobility.
The high sensitivity of the sensor also enables the precise detection of magnetic faults in hard discs and other electronic components. This helps to improve the quality and reliability of electronic devices.
The magnetic field sensor can also be used to identify fault currents in batteries and power electronics. This can help to prevent fires and other damage.
The ability to record biosignals over long distances opens up new applications in telemedicine and the metaverse. For example, avatars in the metaverse could be controlled by thought.
The sensor can be used to monitor machines and systems in order to detect wear and faults at an early stage. This can help to improve the efficiency and safety of production facilities.
The magnetic field sensor from Q.ANT is characterised not least by several properties that make it ideal for industrial use:
- Extremely high sensitivity in the picotesla range
- Operation at room temperature without cooling
- Compact size and small design
- Robustness and reliability
- Low energy consumption
The magnetic field sensor from Q.ANT paves the way for significant progress in prosthesis control and sensor technology. With its innovative quantum sensor technology, it not only enables intuitive and natural prosthesis control, but also opens up a wide range of new applications in industry. Q.ANT's technology has the potential to improve the quality of life of people with prostheses and at the same time drive industrial innovation.
COMAMED-tradefair.com; Source: Q.ANT