Title :
Wireless aircraft fuel quantity indication system
Author :
Bommer, Jason ; Robb, Andrew ; Martinez, Ricardo ; Ramamurthy, Senthil ; Harrigan, Jason ; Muniganti, Harikiran ; Mannangi, Vivekanand ; Vinoy, Kj
Author_Institution :
Boeing Co., Seattle, WA, USA
Abstract :
A wireless fuel quantity indication system (FQIS) has been developed using an RFID-enabled sensing platform. The system comprises a fully passive tag, modified reader protocol, capacitive fuel probe, and auxiliary antenna for additional energy harvesting. Results of fluid testing show sensitivity to changes in fluid height of less than 0.25in. An RF-DC harvesting circuit was developed, which delivers up to 5dBm of input power through a remote radio frequency (RF) source. Testing was conducted in a loaded reverberation chamber to emulate the fuel tank environment. Results demonstrate feasibility of the remote source to power the sensor with less than 1W of maximum transmit power and under 100ms dwell time (100mW average power) into the tank. This indicates adequate coverage for large transport aircraft at safe operating levels with a sample rate of up to 1 sample/s.
Keywords :
aircraft antennas; aircraft instrumentation; energy harvesting; fuel storage; protocols; radiofrequency identification; reverberation chambers; wireless sensor networks; RF-DC harvesting circuit; RFID-enabled sensing system; auxiliary antenna; capacitive fuel probe; energy harvesting; fluid testing; fuel tank environment; loaded reverberation chamber; modified reader protocol; passive tag; remote radio frequency source; remote source; wireless aircraft fuel quantity indication system; Antennas; Capacitance; Energy harvesting; Fluids; Fuels; Radiation detectors; Radio frequency; RFID; energy harvesting; fuel quantity indication system; sensor; wireless;
Conference_Titel :
Sensors Applications Symposium (SAS), 2014 IEEE
Conference_Location :
Queenstown
Print_ISBN :
978-1-4799-2180-5
DOI :
10.1109/SAS.2014.6798966
