ГОСТ Р 51317.1.5-2009 (МЭК 61000-1-5:2004) Совместимость технических средств электромагнитная. Воздействия электромагнитные большой мощности на системы гражданского назначения. Основные положения (Переиздание)

[1]

МЭК 60050 (161):1990 Международный электротехнический словарь. Глава 161. Электромагнитная совместимость

(IEC 60050-161:1999) (International Electrotechnical Vocabulary (IEV) - Chapter 161: Electromagnetic compatibility

[2]

МЭК 61000-1-5:2004 Электромагнитная совместимость (ЭМС). Часть 1-5. Основы. Электромагнитные большой мощности (ЭМБМ) воздействия на гражданские системы

(IEC 61000-1-5:2004) (Electromagnetic compatibility (EMC) - Part 1-5: General - High power electromagnetic (HPEM) effects on civil systems)

[3]

EMP Engineering and Design Principles, Technical Publications Department, Bell Laboratories, Whippany, NJ., 1975

[4]

EMP Interaction: Principles, Techniques and Reference Data, K. S. H. Lee, editor, Hemisphere Publishing Co., New York, 1989

[5]

МЭК 61000-1-3:2002 Электромагнитная совместимость (ЭМС). Часть 1-3. Основы. Воздействия электромагнитного импульса высотного ядерного взрыва на гражданские оборудование и системы

(IEC 61000-1-3:2002) (Electromagnetic compatibility (EMC) - Part 1-3: General - The effects of high-altitude EMP (HEMP) on civil equipment and systems)

[6]

VANCE EF., "EMP Hardening of systems", Proceeding of the 4th symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, March 10-12, 1981

[7]

MIL-STD-188-125-1,2:1999 High-Altitude Electromagnetic Pulse (HEMP) Protection For Ground-Based C41 Facilities Performing Critical, Time-Urgent Missions; Part 1: Fixed Facilities, Part 2 Transportable Systems

[8]

Electromagnetic Pulse (EMP) and Tempest Protection For Facilities, U.S. Army Corps of Engineers, Washington, DC 20314-1000, Publication 1110-3-2, 31 December 1990

[9]

TAYLOR CD and GIRI, DV. High Power Microwave Systems and Effects. Taylor & Francis, Inc., January 1994

[10]

GIRI DV and KAELIN AW. Many Faces of High-Power Electromagnetics (HPEM) and Associated Problems in Standardization. Presentation at the AMEREM'96 Meeting, Kirtland AFB, Albuquerque, NM, 1996

[11]

LEACH PO and ALEXANDER MB. Electronic Systems Failures and Anomalies Attributed to Electromagnetic Interference", NASA Report 1374, National Aeronautics and space Administration. Washington, CC 20546-0001, July 1995

[12]

GARDNER RL. Electromagnetic Terrorism. A Real Danger. Proceedings of the XI Symposium on Electromagnetic Compatibility, Wroclaw, Poland, June 1998

[13]

BACKSTROM M., NORDSTROM В., LOVSTRAND KG. Is HPM a Threat Against the Civil Society? URSI XXVII General Assembly, Maastricht, the Netherlands, August 17-24, 2002

[14]

Workshop on "Electromagnetic Terrorism and Adverse Effects of High Power Electromagnetic (HPE) Environments", Proceedings of the 13 International Zurich Symposium and Technical Exhibition on Electromagnetic Compatibility, February 16-18, 1999

[15]

AMEREM'96 Meeting, Albuquerque, New Mexico, May 27-31, 1996

[16]

EUROEM'98, Tel Aviv, Israel, June 14-19, 1998, and EUROEM 2000, Edinburgh, Scotland, 30 May - 2 June 2000

[17]

International Scientific Radio Union (URSI) General Assembly, Toronto, 1999

[18]

ROSENBERG E. New Face of Terrorism: Radio-Frequency Weapons, New York Times, 23 June 97

[19]

City surrenders to Е400м gangs. The Sunday Times, London, 2 June 1996

[20]

LOBOREV VM. The Modern Research Problems. Plenary Lecture, AMEREM'96 Meeting, Albuquerque, NM, USA May 1996

[21]

SAWYER D. "20/20 Segment on Non-lethal Weapons", American Broadcasting Company (ABC), aired in February 1999

[22]

  FOA-R-97-00538-612-SE, August 1997, ISSN 1104-9154. In Swedish (abstract in English), English title: "Preliminary Study on the Resistance of Critical Societal Functions Against Intense Electromagnetic Radiation"

[23]

MERRITT IW., U. S. Army Space and Missile Defense Command. Proliferation and Significance of Radio Frequency Weapons Technology. Testimony before the Joint Economic Committee, United States Congress, February 25, 1998

[24]

МЭК 61000-5-3:1999 Электромагнитная совместимость (ЭМС). Часть 5-3. Руководства по установке и помехоподавлению. Концепции защиты от электромагнитного импульса высотного ядерного взрыва

(IEC 61000-5-3:1999) [Electromagnetic compatibility (EMC) - Part 5-3: Installation and mitigation guidelines - HEMP protection concepts]

[25]

МЭК 61000-5-4:1996 Электромагнитная совместимость (ЭМС). Часть 5. Руководства по установке и помехоподавлению. Раздел 4. Устойчивость к электромагнитному импульсу высотного ядерного взрыва. Требования к устройствам защиты от излучаемых помех ЭМИ ВЯВ

(IEC 61000-5-4:1996) (Electromagnetic compatibility (EMC) - Part 5: Installation and mitigation guidelines - Section 4: Immunity to HEMP - Specifications for protective devices against HEMP radiated disturbance)

[26]

МЭК 61000-5-6:2002 Электромагнитная совместимость (ЭМС). Часть 5-6. Руководства по установке и помехоподавлению. Защита от внешних электромагнитных воздействий

(IEC 61000-5-6:2002) (Electromagnetic compatibility (EMC) - Part 5-6: Installation and mitigation guidelines - Mitigation of external EM influences)

[27]

МЭК 61000-2-9:1996 Электромагнитная совместимость (ЭМС). Часть 2. Электромагнитная обстановка. Раздел 9. Описание обстановки электромагнитного импульса высотного ядерного взрыва. Излучаемые помехи

(IEC 61000-2-9:1996) [Electromagnetic compatibility (EMC) - Part 2: Environment - Section 9: Description of HEMP environment - Radiated disturbance]

[28]

МЭК 61000-2-10:1998 Электромагнитная совместимость (ЭМС). Часть 2. Электромагнитная обстановка. Раздел 10. Описание обстановки электромагнитного импульса высотного ядерного взрыва. Кондуктивные помехи

(IEC 61000-2-10:1998) [Electromagnetic compatibility (EMC) - Part 2-10: Environment Description of HEMP environment - Conducted disturbance]

[29]

BENFORD J. and SWEAGLE J. (Editors), High-Power Microwaves, Artech House, Norwood, Massachusetts, 1992

[30]

МЭК 61000-2-13:2005 Электромагнитная совместимость (ЭМС). Часть 2-13. Электромагнитная обстановка. Основы. Электромагнитные большой мощности (ЭМБМ) окружения - излучаемые и кондуктивные

(IEC 61000-2-13:2005) [Electromagnetic compatibility (EMC) - Part 2-13: Environment - High-power electromagnetic (HPEM) environments - Radiated and conducted (to be published)]

[31]

LOVETRI J., WILBERS ATM. and ZWAMBORN АРМ. Microwave Interaction with a Personal Computer: Experiment and Modeling. Proceedings of the 1999 Zurich EMC Symposium

[32]

M. HPM Testing of a Car: A Representative Example of the Susceptibility of Civil systems. Workshop W4, Proceedings of the 13 international Zurich symposium and Technical Exhibition on EMC, February 1999, pp. 189-190

[33]

ROE JM. and PUGLIELLI VG. Using the Integrated Circuit Electromagnetic Susceptibility Handbook to Assess the susceptibility of Electronic Systems. Proceedings of the 1979 Symposium and Technical Exhibition on EMC, Rotterdam, Holland

[34]

WHALEN JJ. Assessment Procedure Application Utilizing UHF Transistor RF Pulse Susceptibility Data. Proceedings of the 1977 symposium and Technical Exhibition on EMC, Montreux, Switzerland

[35]

HJELLEN GA. and LANGE TJ. A Thermal Damage Model for Bipolar Semiconductors, Proceedings of the 1977 IEEE Symposium on EMC

[36]

VAN KEUREN E., HENDRICKSON R. and MAGYARICS R. Circuit Failure Thresholds Due to Transient Induced Stresses. Proceedings of the 1975 symposium and Technical Exhibition on EMC, Montreux, Switzerland

[37]

CLARK OM., Device and Methods for EMP Transient Suppression, Proceedings of the 1975 IEEE Symposium on EMC

[38]

FOWLES HM. Test and Evaluation of Electrical PoE Protection Devices Using MIL-STD-188-125 Short-, Intermediate-, and Long-Duration Pulses. Mission Research Corp., Technical Report MRC/ABQ-1340, July 1990

[39]

WIK M., KAPP WH., EGGENDORFER A., JOHL W., BUCHMANN W. Measurement and Application of Secondary Surge Arresters for the Purpose of HEMP Protection. Proceedings of the 1981 Symposium and Technical Exhibition on EMC, Zurich, Switzerland

[40]

EICHLER CH., LEGRO JR. and BARNES PR. Experimental Determination of the Effects of Steep Front-Short Duration Surges on 25 KVA Pole-Mounted Distribution Transformers, IEEE Transactions on Power Delivery, Vol.4, No.2, April 1989

[41]

SALAS TM., WIGGINS CM. and BARNES PR. Steep Front Impulse Flashover Tests on a Solid-State Relay. Paper No. 90 WM 126-3 PWRD, Proceedings of the IEEE/PE5 1990 Winter Meeting, Atlanta, Georgia, February 4-8, 1990

[42]

BARNES PR. and HUDSON TL. Steep-Front Short-Duration Voltage Surge Tests of Power Line Filters and Transient Voltage Suppressors. Paper 88 SM 541-5, Proceedings of the IEEE/PES Summer Meeting, July 1988

[43]

MILLER DВ., LUX AE. GRZYBOWSKI S. and BARNES PR. The Effects of steep-Front, Short-Duration Impulses on Power Distribution Components. Digest of the IEEEIPES summer Meeting, Long Beach, CA, July 10-14, 1989

[44]

BACHL H., MARTZLOFF F. and NASTASL D. Using Incandescent Lamp Failure Levels for Assessment of the surge-Environment. Proceedings of the 1997 Symposium and Technical Exhibition on EMC, Zurich, Switzerland

[45]

GORANSSON G. HPM Effects on Electronic Components and the Importance of this Knowledge in Evaluation of system susceptibility. Proceedings of the 1999 IEEE EMC Symposium, Seattle, Washington

[46]

RADASKY WA., MESSIER MA., WIK MW Intentional Electromagnetic Interference(EMI) - Test Data and Implications. Proceedings of the 14 International Zurich Symposium and Technical Exhibition on EMC, February 2001

[47]

МЭК 61000-4-5:2002 Электромагнитная совместимость (ЭМС). Часть 4. Техника испытаний и измерений. Раздел 5. Испытания на устойчивость к скачкам напряжения

(IEC 61000-4-5:2002) [Electromagnetic Compatibility (EMC) - Part 4: Testing and measurement techniques - Section 5: Surge immunity test]

[48]

МЭК 61000-4-4:2004 Электромагнитная совместимость (ЭМС). Часть 4. Техника испытаний и измерений. Раздел 4. Испытания на устойчивость к электрически быстрым переходным процессам (пачкам)

(IEC 61000-4-4:2004) [Electromagnetic compatibility (EMC) - Part 4-4: Testing and measurement techniques - Electrical fast transient/burst immunity test]

[49]

FORTOV V., LOBOREV V., PARFENOV Y., SIZRANOV V., YANKOVSKII RADASKY W. Estimation of Pulse Electromagnetic Disturbances Penetrating into Computers Through Building Power and Earthing Circuits. EUROEM 2000 Conference, Edinburgh, May 2000

[50]

FORTOV V., PARFENOV Y., ZDOUKHOV L., BORISOV R., PETROV S., SINIY L. A computer code for estimating pulsed electromagnetic disturbances penetrating into building power and earthing connections. Proceedings of the 14 International Zurich Symposium and Technical Exhibition on EMC, February 2001

[51]

LANDGREN PG. Some Directivity Properties of Test Objects in the Microwave Region. Proceedings of the 2001 IEEE EMC Symposium, Montreal, Canada

[52]

Special Issue on Intentional Electromagnetic Interference (IEMI). IEEE Transactions on EMC, August 2004

УДК 621.396/.397.001.4:006.354

ОКС 33.100

Ключевые слова: электромагнитная совместимость, электромагнитные воздействия большой мощности, системы гражданского назначения, преднамеренное электромагнитное влияние, защита систем от электромагнитных воздействий большой мощности