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Crane Aerospace and Electronics' RFID-Based Tire Pressure Sensor Simplifies Aircraft Maintenance
The company's passive RFID SmartStem system is being used by some aircraft operators, and at least one other plane manufacturer is urging Crane to obtain FAA certification so that the gauges can be provided on its aircraft.
Aug 27, 2013—
Among the tasks related to the maintenance of an aircraft—whether commercial or private—the process of tracking tire air pressure is one of the more frequent and time-consuming. Whether the task is performed via a manual pressure gauge or using a wired onboard sensor device, aircraft owners and operators must check that all tires are properly inflated on a regular basis—typically, every day or two. Manually measuring tire pressure on a single aircraft usually requires approximately an hour to complete.
Throughout the past seven years, some airlines and private jet operators have been employing a radio frequency identification-based solution provided by Crane Aerospace and Electronics to track that information. At the request of a major aircraft company that has asked to remain unnamed, Crane is currently seeking Federal Aviation Administration (FAA) certification for the use of its RFID-enabled SmartStem wireless tire-pressure monitoring system (TPMS).
Crane's solution is a sensor that replaces the wheel's standard fill valve. The company (or its resellers) provides the sensor to aircraft manufacturers—who then fit the gauge into tires for customers—as well as to the aircraft operators themselves. The gauge is interrogated via a handheld RFID reader that captures temperature and pressure data, along with the sensor's unique ID number. The technology developed by Crane includes readers and tags supplied by Colorado wireless sensor company Phase IV Engineering. Only the Crane reader can interrogate the gauge's RFID tag.
The TPMS sensor comes with Phase's IV SensIC passive 134.2 kHz chip, which has a unique ID number encoded on it that is linked to details regarding the aircraft itself, stored in software on the handheld. Although the SmartStem system employs LF RFID technology, Crane does not use the term RFID to describe its technology (based on a concern that its customers might incorrectly assume that RFID always uses a high- frequency transmission band). This is a very important distinction, according to the company, since the company’s customers could believe that high -frequency RF transmissions that could interfere with cockpit operating systems.
The gauge also includes a pressure and temperature sensor, and the reader simultaneously captures the measurements from those sensors. The collected data is then displayed on a screen on the front of the device, and the handheld's data records can be uploaded to a PC for maintenance tracking via a USB or Bluetooth connection.
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