%0 Conference Proceedings %T A Fault Model for Conducted Intentional ElectroMagnetic Interferences %+ Secure and Safe Hardware (SSH) %+ Département Communications & Electronique (COMELEC) %A Sauvage, Laurent %A Guilley, Sylvain %A Danger, Jean-Luc %A Homma, Naofumi %A Hayashi, Yu-Ichi %< avec comité de lecture %Z LS:EMC-12 %( EMC %B EMC %C Pittsburgh, United States %I IEEE %P 788-793 %8 2012-08 %D 2012 %R 10.1109/ISEMC.2012.6351664 %K Fault Injection Analysis %K Conducted Intentional ElectroMagnetic Interference %K FPGA %K DES %Z Engineering Sciences [physics]/ElectronicsConference papers %X Experimental setups used in electromagnetic compatibility tests can be used as platforms for fault injections. Faulting an equipment is a mean for a malevolent attacker to extract secret information. Compared to other fault injection setups, those based on EMC tests provide three advantages: non-invasivity, absence of synchronization, and frequency selectivity. This injection technique therefore allows the attacker to perform analysis with little knowledge of the targeted equipment. To assess the potential of this attack, a characterization of its effects is needed. This is the purpose of this paper. More precisely, our contributions are twofold: first of all, we observe that the faults are reproducible. Second, we show that the fault model is compatible with known attacks. %G English %L hal-02411875 %U https://telecom-paris.hal.science/hal-02411875 %~ INSTITUT-TELECOM %~ ENST %~ TELECOM-PARISTECH %~ PARISTECH %~ LTCI %~ COMELEC %~ SSH %~ INSTITUTS-TELECOM