Title :
A fiber-optic current sensor for aerospace applications
Author :
Patterson, Richard L. ; Rose, A.H. ; Tang, D. ; Day, G.W.
Author_Institution :
NASA Lewis Res. Center, Cleveland, OH, USA
Abstract :
A robust, accurate, broadband, AC sensor using fiber optics that is being developed for space applications at power frequencies as high as 20 kHz is described. It can also be used in low- and high-voltage 60-Hz terrestrial power systems and in 400-Hz aircraft systems. It is intrinsically immune to electromagnetic interference (EMI) and has the added benefit of excellent isolation. The sensor uses the Faraday effect in optical fiber and standard polarimetric measurements to sense electrical current. The primary component of the sensor is a specially treated coil of single-mode optical fiber, through which the current-carrying conductor passes. Improved precision is accomplished by temperature compensation by means of signals from a novel fiber-optic temperature sensor embedded in the sensing head. The technology used in the sensor is discussed, and the results of precision tests conducted at various temperatures within the wide operating range as well as the results of early EMI tests are reported.<>
Keywords :
Faraday effect; aerospace instrumentation; aircraft instrumentation; compensation; electric current measurement; electromagnetic interference; fibre optic sensors; polarimetry; 20 kHz; 400 Hz; 60 Hz; AC sensor; EMI; Faraday effect; aerospace applications; aircraft; electric current measurement; electromagnetic interference; fiber-optic current sensor; isolation; single-mode optical fiber; standard polarimetric measurements; temperature compensation; terrestrial power systems; Electromagnetic interference; Frequency; Optical fiber sensors; Optical fibers; Optical sensors; Power system measurements; Robustness; Sensor phenomena and characterization; Temperature sensors; Testing;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
