The Inductive Non-Contact Position Sensor is a highly accurate sensor for motion control applications. The sensor was designed to monitor the precise movements of an optical inspection system that measured defects in space shuttle windows.

The tip/tilt sensor prototype.

Position sensors are used in a range of applications, and there are a number of types tailored to the needs of the applications. Current non-contact inductive sensors are inexpensive but are not precise. Other sensor types including eddy current sensors, capacitive sensors, and optical/laser position sensors have high precision, but are larger, more expensive, and require complex algorithms to operate.

Compared to other position sensors, this technology is precise, small, inexpensive, and provides absolute position. It can measure accuracy of position down to 400 nanometers over a total range of 200 microns. The sensor uses inexpensive, off-the-shelf components and has a total volume of less than a cubic inch. A highly linear output makes computation easy by using a low-cost microcontroller. The high signal-to-noise ratio allows the sensor to operate in noisy environments.

Although originally designed as a one-dimensional sensor, additional work performed in the laboratory improved the design to make it two-dimensional as well as providing the ability to function as a tip/tilt sensor. The additional work also extended the linear operating region substantially, from about 30 degrees to about 70 degrees. The sensor design can be enlarged to accommodate a larger range of motion; however, enlarging the design may result in a loss of resolution.

NASA is actively seeking licensees to commercialize this technology. Please contact Lew Parrish at This email address is being protected from spambots. You need JavaScript enabled to view it. or 321-861-5033 to initiate licensing discussions. Follow this link here for more information.