(NewTek Sensors: Pennsauken, NJ) -- NewTek linear position sensors support the space industry in both flight vehicles and ground-based testing applications, delivering precise position measurements in mission-critical environments. Engineered to perform under challenging conditions, including cryogenic temperatures, high shock and vibration, and vacuum environments, NewTek LVDT position sensors provide highly accurate, noncontact position feedback where reliability is critical.

To meet the unique requirements of aerospace applications, NewTek displacement sensors can be customized with rugged, lightweight designs, low outgassing materials, and other specialized features. This design flexibility enables the sensors to meet stringent aerospace specifications while delivering the accuracy, durability, and long-term reliability required for mission success.

LVDT space applications

In space vehicles, NewTek LVDTs monitor the position and movement of critical components such as thrust vector control systems, engine actuators, control surfaces, environmental control system valves, landing gear mechanisms, and elevated temperature test stands. Their ability to withstand vibration, shock, temperature extremes, and long operating cycles make them the preferred sensing technology for launch vehicles, satellites, and spacecraft.

NewTek linear displacement sensors are also widely used in ground-based testing and qualification facilities. Engineers rely on them to measure displacement, deflection, vibration, and structural movement during component testing, engine development, environmental simulation, and materials evaluation. Their accuracy and repeatability help validate designs and ensure that systems perform as intended before deployment.

LVDT configurations meet space challenges

Space industry applications often expose sensors to extremely demanding operating conditions. Newtek can engineer its LVDTs to operate at cryogenic temperatures, whether used in the vacuum of space or near supercooled propellants such as liquid hydrogen and liquid oxygen. They can also be designed to withstand the intense shock and vibration loads during launch while maintaining accurate position feedback. Additionally, users can configure units with low mass cores to minimize payload weight and improve overall vehicle efficiency.

Other design options include low outgassing characteristics to prevent contamination of sensitive spacecraft components, and radiation resistance construction to ensure reliable performance in harsh environments. In aerospace applications, where technologies that minimize failure risk are highly valued, the durability, noncontact operation, and design flexibility of NewTek LVDTs make them ideal for mission-critical applications that require consistent, long-term performance.

With fully customizable housings, stroke length, materials, and performance characteristics, NewTek LVDTs are tailored to exact aerospace application requirements. Sensors can be engineered to operate in extreme environments, including temperatures of up to 1,000°F. Whether the application involves spaceflight hardware, propulsion systems, or ground-based testing, NewTek provides reliable position sensing solutions designed to meet the industry’s most demanding challenges.

For more information, refer to the website at https://www.newteksensors.com/custom-lvdts/ or contact sales@newteksensors.com.