Advancements in pressure sensor technology will continue to enable smarter, safer, and more efficient batteries. With batteries playing an increasingly important role across many industries, improved pressure monitoring is essential for meeting future energy storage needs.
Superior’s pressure sensors enable the most accurate air quality readings by integrating closed loop control and advanced digital filtering, and incorporating Multi-Range technology.
Superior’s VN Series pressure sensors significantly improve Patient-Ventilator Synchrony with oversampling technology, enabling ventilators to utilize sensor outputs at their maximum speed, doing away with the need for oversampling sensor outputs.
Farnell has announced a distribution agreement with Superior Sensor Technology, a pioneer in application-specific pressure sensors for the medical, industrial, and HVAC markets.
Incorporating pressure sensors into manufacturing processes in the Industry 4.0 era is transforming how factories approach maintenance. Facilities embracing real-time data collection and analysis prevent costly breakdowns, reduce downtime, and ensure production lines run smoothly, safely, and with maximum efficiency.
Pressure sensors have become indispensable in the wind power industry, enabling more efficient and reliable wind turbine operation. They play a multifaceted role in enhancing wind power generation, from wind speed monitoring and control to structural health monitoring and ice detection.
The CP202 and CP302 closed loop control functionality and overpressure indicator enable manufacturers to easily upgrade their PAP devices to offer a better patient experience.
Pressure sensors empower robotics with critical capabilities ranging from proprioception for dexterous manipulation to tactile sensing for responsive interactions. By continuously monitoring internal hydraulic pressures, external contact forces, and environmental conditions, pressure data allows robots to move, handle objects, and react to physical stimuli with human-like sensitivity.
High-precision differential pressure sensors continuously monitor space station cabin pressure versus outside pressure to swiftly detect minute leaks before they can pose danger to astronauts, equipment and mission goals.
Incorporating pressure sensors in auto emissions testing adds another layer of monitoring and precision, leading to improved detection of emission-related problems and more effective identification of vehicles that require further repairs.
