Title :
Finite-difference time-domain method applied to lightning simulation and aircraft certification process
Author :
Gutierrez Gutierrez, Guadalupe ; Gil, E.P. ; Garcia Gomez, David ; Plaza Gomez, Jose Ignacio
Author_Institution :
EMC & MW Dept., Airbus Mil., Madrid, Spain
Abstract :
Electronic circuits performing critical functions for aircraft safe flight and landing, and composite materials with reduced electromagnetic shielding properties are increasingly used in the aircraft manufacture. Thus, an adequate design of the protections against threats such as a lightning strike becomes more and more important. To achieve this purpose, a variety of simulation tools are available. Finite Difference Time Domain is the most widely used method in lightning simulations. In this paper, the steps to perform a lightning simulation and an aircraft certification process are presented. The analysis of the electromagnetic transients generated on a C-295 by a lightning impact is shown to illustrate the explanation.
Keywords :
aerospace safety; aircraft; aircraft manufacture; electromagnetic shielding; finite difference time-domain analysis; lightning; space vehicle electronics; C-295; aircraft certification process; aircraft manufacture; aircraft safe flight; aircraft safe landing; composite materials; electromagnetic transients; electronic circuits; finite-difference time-domain method; lightning simulation; reduced electromagnetic shielding property; Aerospace electronics; Aircraft; Atmospheric modeling; Cable shielding; Electromagnetic compatibility; Lightning; Transient analysis; MUR; actual transient level (ATL); aircraft; electromagnetic (EM); equipment transient design level (ETDL); equipment transient susceptibility level (ETSL); finite difference time domain (FDTD); indirect effects of lightning; perfect electric conductor (PEC); perfect magnetic conductor (PMC); perfectly matched layer (PML); surge protection devices (SPDs); transient control level (TCL); waveform (WF);
Conference_Titel :
EMC Europe 2011 York
Conference_Location :
York
Print_ISBN :
978-1-4577-1709-3
