Worst-Case Scenarios of Radiated-Susceptibility Effects in a Multiport System Subject to Intentional Electromagnetic Interference
This paper presents a method to assess intentional electromagnetic interference (IEMI) in a linear multiport system, due to coupling with a high-power electromagnetic (HPEM) field. First, an approach based on the Lorentz reciprocity theorem is proposed to model field coupling for the arbitrary direc...
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| Published in | IEEE access Vol. 7; pp. 76500 - 76512 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Piscataway
IEEE
2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
| ISSN | 2169-3536 2169-3536 |
| DOI | 10.1109/ACCESS.2019.2921117 |
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| Abstract | This paper presents a method to assess intentional electromagnetic interference (IEMI) in a linear multiport system, due to coupling with a high-power electromagnetic (HPEM) field. First, an approach based on the Lorentz reciprocity theorem is proposed to model field coupling for the arbitrary direction of incidence and polarization, which minimizes the number of required full-wave numerical simulations. Afterward, three constrained-optimization problems are identified to describe the worst-case scenarios related to different radiated-susceptibility effects at the system's ports. Namely, under the assumption of limited bandwidth and finite energy density, the spectrum and the waveform of the HPEM field are found so to maximize the dissipated energy, the peak, and the rectified impulse of the induced voltage waveform. It is shown analytically that in the worst-case energy scenario, the HPEM field shall be a properly tuned narrowband field, whereas in the worst-case voltage peak scenario a wideband field properly matched to the frequency response of the system is needed. In addition, it is shown that the rectified impulse of the induced voltage can be made arbitrarily large by reducing the impinging field bandwidth. A typical printed-circuit board interconnect for low-voltage differential signaling is used to exemplify and validate the proposed approach. Furthermore, uncertainty-quantification techniques are exploited to cope with the lack of knowledge about the incidence and polarization parameters of the HPEM field, as well as to account for uncertain geometrical parameters of the victim system. |
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| AbstractList | This paper presents a method to assess intentional electromagnetic interference (IEMI) in a linear multiport system, due to coupling with a high-power electromagnetic (HPEM) field. First, an approach based on the Lorentz reciprocity theorem is proposed to model field coupling for the arbitrary direction of incidence and polarization, which minimizes the number of required full-wave numerical simulations. Afterward, three constrained-optimization problems are identified to describe the worst-case scenarios related to different radiated-susceptibility effects at the system's ports. Namely, under the assumption of limited bandwidth and finite energy density, the spectrum and the waveform of the HPEM field are found so to maximize the dissipated energy, the peak, and the rectified impulse of the induced voltage waveform. It is shown analytically that in the worst-case energy scenario, the HPEM field shall be a properly tuned narrowband field, whereas in the worst-case voltage peak scenario a wideband field properly matched to the frequency response of the system is needed. In addition, it is shown that the rectified impulse of the induced voltage can be made arbitrarily large by reducing the impinging field bandwidth. A typical printed-circuit board interconnect for low-voltage differential signaling is used to exemplify and validate the proposed approach. Furthermore, uncertainty-quantification techniques are exploited to cope with the lack of knowledge about the incidence and polarization parameters of the HPEM field, as well as to account for uncertain geometrical parameters of the victim system. |
| Author | Pignari, Sergio Amedeo Liang, Tao Spadacini, Giordano Grassi, Flavia |
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| SubjectTerms | Antenna radiation patterns Bandwidth Bandwidths Broadband Computational modeling Coupling Couplings Electromagnetic interference Flux density Frequency response High-power electromagnetics (HPEM) Induced voltage intentional electromagnetic interference (IEMI) Load modeling low-voltage differential signaling (LVDS) Mathematical models Narrowband Optimization Parameter uncertainty Polarization radiated susceptibility Reciprocity Reciprocity theorem Waveforms |
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| Title | Worst-Case Scenarios of Radiated-Susceptibility Effects in a Multiport System Subject to Intentional Electromagnetic Interference |
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