NIST Airframe Tests Help Ensure Better Shielding for Flight Instruments

Helps determine if and where shielding is needed to protect vital electronic instrumentation from malfunction or damage

Published: Thursday, August 27, 2009 - 11:18

(NIST: Gaithersburg, MD ) -- Airline travelers are used to being instructed to turn off computers and cell phones during takeoffs and landings as a precaution against interfering with the plane’s navigational equipment, but outside sources of high-energy interference can be even more dangerous. Recent tests by researchers at the National Institute of Standards and Technology (NIST) will provide much needed, independent data on how electromagnetic radiation penetrates aircraft, helping to ensure continued air travel safety.

Testing equipment being used by NIST scientists in recent research mapping radio frequency penetration of airframes, in this case a Boeing 737-200. The data from the tests provided valuable independent data on how electromagnetic radiation penetrates commercial aircraft, thereby helping improve safety. Credit: NIST

The Federal Aviation Administration (FAA) requires aircraft manufacturers to demonstrate that their aircraft have effective high-intensity radiated-field (HIRF) protection. The manufacturers conduct tests on their aircraft and provide those results to the FAA as part of the certification process. The tests are designed to show where and to what extent electromagnetic radiation, across a wide spectrum of frequencies, penetrate a given craft’s airframe. This information is important in determining if and where shielding is needed to protect vital electronic instrumentation from malfunction or damage while flying through ground-based radar beams, for example.

This effort was undertaken to assist the FAA with HIRF measurement procedures and data processing methodologies. The FAA has struggled with data sets provided by HIRF testers because they use a wide range of measurement and data processing techniques that are not standardized.

For an independent analysis of the situation, a NIST team recently performed HIRF tests on three representative aircraft to give FAA officials a frame of reference for the procedures and data reduction techniques used for typical low-level airframe HIRF attenuation and shielding tests. Having this information will help the FAA ensure that commercial aircraft are indeed meeting minimum shielding requirements and, ultimately, make the safety of tested aircraft more transparent. “This will get everyone on the same page,” says Chriss Grosvenor, a NIST electronics engineer. “The FAA and aircraft manufacturers now have a lot of unbiased data they can look at, and our method is just another method to obtain that information.”

The three aircraft chosen for the representative tests were a Boeing 737-200 and a Bombardier Global 5000 business jet, both owned by the FAA, and a Beechcraft Premier IA carbon-fiber composite business jet, owned by the Hawker-Beechcraft company. By measuring all three aircraft and comparing the results, NIST was able to provide a guide for the optimization of HIRF testing standards for the electromagnetic compatibility (EMC) aircraft manufacturing community. The tests were conducted over a two-year period using a commercial measurement system that incorporates NIST-developed ultra-wideband antennas, a network analyzer and an optical fiber link to obtain high-resolution measurements from the megahertz to gigahertz range. NIST-developed special software extends the number of frequencies to any desired value using a variable number of bands.

The findings of these tests were published last year and were presented last week at the IEEE EMC Society Symposium on Electromagnetic Compatibility in Austin, Texas.

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NIST

Founded in 1901, the National Institute of Standards and Technology (NIST) is a nonregulatory federal agency within the U.S. Department of Commerce. Headquartered in Gaithersburg, Maryland, NIST’s mission is to promote U.S. innovation and industrial competitiveness by advancing measurement science, standards, and technology in ways that enhance economic security and improve our quality of life.