A Systematic Approach for Estimating High-Altitude Electromagnetic Pulse Coupling onto Power Generation Facility Equipment

DaHan Liao; Yilu Liu; Lawrence C. Markel; Benjamin W. Mcconnell; David P. Mignardot; Brian R. Poole; Lisa Wang

doi:10.2172/1994654

A Systematic Approach for Estimating High-Altitude Electromagnetic Pulse Coupling onto Power Generation Facility Equipment

DaHan Liao
, Yilu Liu
, Lawrence C. Markel
, Benjamin W. Mcconnell
, David P. Mignardot
, Brian R. Poole
, Lisa Wang

Research output: Other contribution › Technical Report

Abstract

A systematic approach is presented to evaluate the effects of high-altitude electromagnetic pulse (HEMP) signals on the equipment located inside a power generation facility. The approach uses a combination of practical measurement and simulation efforts to characterize the radio wave propagation behavior and the device immunity profile. Of particular interest in this work was estimating the vulnerability level of equipment that is connected to long cables. As an example application, a detailed study was conducted for one common class of facility equipment, and its frequency- and time-domain HEMP coupling properties were investigated as a function of terminal loading condition and cable attachment configuration. Overall, the proposed method can be generalized and applied to other electronic components and systems found in the facility environment.

Original language	English
Place of Publication	United States
DOIs	https://doi.org/10.2172/1994654
State	Published - 2023

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42 ENGINEERING

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10.2172/1994654

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title = "A Systematic Approach for Estimating High-Altitude Electromagnetic Pulse Coupling onto Power Generation Facility Equipment",

abstract = "A systematic approach is presented to evaluate the effects of high-altitude electromagnetic pulse (HEMP) signals on the equipment located inside a power generation facility. The approach uses a combination of practical measurement and simulation efforts to characterize the radio wave propagation behavior and the device immunity profile. Of particular interest in this work was estimating the vulnerability level of equipment that is connected to long cables. As an example application, a detailed study was conducted for one common class of facility equipment, and its frequency- and time-domain HEMP coupling properties were investigated as a function of terminal loading condition and cable attachment configuration. Overall, the proposed method can be generalized and applied to other electronic components and systems found in the facility environment.",

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author = "DaHan Liao and Yilu Liu and Markel, \{Lawrence C.\} and Mcconnell, \{Benjamin W.\} and Mignardot, \{David P.\} and Poole, \{Brian R.\} and Lisa Wang",

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T1 - A Systematic Approach for Estimating High-Altitude Electromagnetic Pulse Coupling onto Power Generation Facility Equipment

AU - Liao, DaHan

AU - Liu, Yilu

AU - Markel, Lawrence C.

AU - Mcconnell, Benjamin W.

AU - Mignardot, David P.

AU - Poole, Brian R.

AU - Wang, Lisa

PY - 2023

Y1 - 2023

N2 - A systematic approach is presented to evaluate the effects of high-altitude electromagnetic pulse (HEMP) signals on the equipment located inside a power generation facility. The approach uses a combination of practical measurement and simulation efforts to characterize the radio wave propagation behavior and the device immunity profile. Of particular interest in this work was estimating the vulnerability level of equipment that is connected to long cables. As an example application, a detailed study was conducted for one common class of facility equipment, and its frequency- and time-domain HEMP coupling properties were investigated as a function of terminal loading condition and cable attachment configuration. Overall, the proposed method can be generalized and applied to other electronic components and systems found in the facility environment.

AB - A systematic approach is presented to evaluate the effects of high-altitude electromagnetic pulse (HEMP) signals on the equipment located inside a power generation facility. The approach uses a combination of practical measurement and simulation efforts to characterize the radio wave propagation behavior and the device immunity profile. Of particular interest in this work was estimating the vulnerability level of equipment that is connected to long cables. As an example application, a detailed study was conducted for one common class of facility equipment, and its frequency- and time-domain HEMP coupling properties were investigated as a function of terminal loading condition and cable attachment configuration. Overall, the proposed method can be generalized and applied to other electronic components and systems found in the facility environment.

KW - 42 ENGINEERING

U2 - 10.2172/1994654

DO - 10.2172/1994654

M3 - Technical Report

CY - United States

ER -

A Systematic Approach for Estimating High-Altitude Electromagnetic Pulse Coupling onto Power Generation Facility Equipment

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