A methodology for assessing high intensity RF effects in aircraft
- Resource Type
- Conference
- Authors
- Zacharias, R.A.; Avalle, C.A.; Kunz, K.S.; Molau, N.E.; Pennock, S.T.; Poggio, A.J.; Sharpe, R.M.
- Source
- [1993 Proceedings] AIAA/IEEE Digital Avionics Systems Conference Digital Avionics Systems Conference, 1993. 12th DASC., AIAA/IEEE. :451-456 1993
- Subject
- Aerospace
Communication, Networking and Broadcast Technologies
Components, Circuits, Devices and Systems
Signal Processing and Analysis
Fields, Waves and Electromagnetics
Photonics and Electrooptics
Radio frequency
Aircraft
Electromagnetic interference
Testing
Airplanes
Optical devices
Digital control
Optical control
Control systems
Certification
- Language
Optical components have an inherent immunity to the electromagnetic interference (EMI) associated with High Intensity Radiated Fields (HIRF). The optical technology embodied in Fly-by-Light (FBL) might therefore minimize the effects of HIRF on digitally controlled systems while providing lifetime immunity to signal EMI. This is one of the primary motivations for developing FBL systems for aircraft. FBL has the potential to greatly simplify EMI certification by enabling technically acceptable laboratory tests of subsystems, as opposed to expensive full airplane tests. The authors describe a methodology for assessing EMI effects on FBL aircraft that reduces or potentially eliminates the need for full airplane tests. This methodology is based on comparing the applied EMI stress-the level of interference signal that arrives at a unit under test-versus the EMI strength of the unit-the interference level it can withstand without upset. This approach allows one to use computer models and/or low power coupling measurements and similarity (to other previously tested aircraft) to determine the stress applied to installed subsystems, and to use benchtop cable injection tests and/or mode stirred chamber radiated tests to determine the strength of the subsystem.ETX