MIL-STD-188-125-2 Base Document:1999
Current
The latest, up-to-date edition.
HIGH-ALTITUDE ELECTROMAGNETIC PULSE (HEMP) PROTECTION FOR GROUND-BASED C[4]I FACILITIES PERFORMING CRITICAL, TIME-URGENT MISSIONS - PART 2 - TRANSPORTABLE SYSTEMS
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FOREWORD
1 SCOPE
1.1 Purpose
1.2 Scope
1.3 Applications
1.4 Objectives
2 APPLICABLE DOCUMENTS
2.1 General
2.2 Government documents
2.2.1 Specifications, standards, and
handbooks
2.2.2 Other Government documents, drawings,
and publications
2.3 Non-Government publications
2.4 Order of precedence
3 DEFINITIONS
3.1 Acronyms used in this standard
3.2 Sources for definitions
3.3 Definitions
3.3.1 Aperture point-of-entry (POE)
3.3.2 Conductive POE
3.3.3 Continuous wave (CW) immersion
3.3.4 Corrective maintenance
3.3.5 Electromagnetic barrier
3.3.6 Electromagnetic closure
3.3.7 Electromagnetic stressHM/HS)
3.3.8 HEMP acceptance test
3.3.9 HEMP hardness
3.3.10 HEMP hardness assurance
3.3.11 HEMP hardness configuration baseline
3.3.12 HEMP hardness critical item (HCI)
3.3.13 HEMP hardness critical process (HCP)
3.3.14 HEMP hardness maintenance (HM)
3.3.15 HEMP hardness maintenance and hardness
surveillance (HM/HS)
3.3.16 HEMP hardness surveillance (HS)
3.3.17 HEMP hardness surveillance/
reverification testing
3.3.18 HEMP protection measures
3.3.19 Intrasite cable
3.3.20 Long-line cable
3.3.21 Long-line protection module (LLPM)
3.3.22 Low-risk HEMP hardening
3.3.23 Main barrier electrical POE protective
device
3.3.24 Mission-critical systems (MCS)
3.3.25 Norton equivalent circuit or Norton
source
3.3.26 Penetrating entry area
3.3.27 Performance degradation
3.3.28 Point-of-entry (POE)
3.3.29 POE protective device or POE treatment
3.3.30 Preventive maintenance
3.3.31 Primary special electrical POE
protective device
3.3.32 Protected volume
3.3.33 Pulsed current injection (PCI)
3.3.34 Residual internal stress
3.3.35 Retrofit HEMP hardening
3.3.36 Secondary special electrical POE
protective device
3.3.37 Shielded enclosure leak detection
system (SELDS)
3.3.38 Special protective measures
3.3.39 Special protective volume
3.3.40 Subsystem HEMP shield
3.3.41 Threat-level illumination
3.3.42 Verification testing
3.3.43 Vulnerability threshold (of an
equipment)
3.3.44 Waveguide below cutoff (WBC)
3.3.45 Waveguide-below-cutoff array
4 GENERAL REQUIREMENTS
4.1 General
4.1.1 HEMP protection overview
4.1.2 Integration with related requirements
4.2 Hardness program overview
4.3 HEMP hardening design
4.3.1 Subsystem HEMP shields
4.3.2 POEs
4.3.3 External cable plant
4.3.4 Mission-critical equipment
4.3.5 HEMP-hardened electrical power
4.3.6 Special protective measures
4.4 HEMP testing
4.4.1 Quality assurance program
4.4.2 Acceptance testing
4.4.3 Verification testing
4.5 HM/HS
4.5.1 HM/HS program development
4.5.2 HM/HS program implementation
5 DETAILED REQUIREMENTS
5.1 HEMP protection topology
5.1.1 Transportable system topology
5.1.2 Electromagnetic barrier topology
5.1.3 Penetration entry area
5.1.4 External electrical cabling
5.2 Transportable system grounding
5.2.1 Equipotential ground plane
5.2.2 Grounding to the facility HEMP shield
5.2.3 Long-line protection module grounding
5.3 Subsystem HEMP shield
5.3.1 Shielding effectiveness
5.3.2 Shield configuration
5.3.3 Shield production quality assurance
5.3.4 Shield acceptance testing
5.4 Architectural POEs
5.4.1 HEMP protection for architectural POEs
5.4.2 Personnel entryways and exits
5.4.3 Equipment accesses
5.4.4 Acceptance testing for architectural
POE protective devices
5.5 Mechanical POEs
5.5.1 HEMP protection for mechanical POEs
5.5.2 Piping POEs
5.5.3 Ventilation POEs
5.5.4 Acceptance testing for mechanical POE
protective devices
5.6 Structural POEs
5.6.1 HEMP protection for structural POEs
5.6.2 Acceptance testing for structural POE
protective treatments
5.7 Electrical POEs
5.7.1 Electrical POEs
5.7.2 Long-line protection modules
5.8 Special protective measures
5.8.1 MCS outside the main electromagnetic
barrier
5.8.2 MCS that is inside a subsystem
electromagnetic barrier and fails
verification testing
5.8.3 Special protective volumes
5.8.4 Acceptance testing of special
protective measures
5.9 Reliability and maintainability
5.10 Safety and human engineering
5.11 Testability
5.12 Corrosion control
5.13 Configuration management
5.14 Verification testing
5.14.1 CW immersion testing
5.14.2 PCI verification testing
5.14.3 Threat-level illumination testing
5.14.4 Verification testing of special
protective measures
5.15 HM/HS program requirements
5.15.1 Hardness surveillance/reverification
test procedures
5.15.2 Maintenance and inspection procedures
5.15.3 Supply support requirements
5.15.4 Training requirements
5.15.5 Technical data
5.15.6 Delivery
5.15.7 Implementation
6 NOTES
6.1 Intended use
6.2 Issues of DoDISS
6.3 Subject term (key word) listing
Figure 1 - Typical transportable system barrier topology
Figure 2 - Penetration entry area placement
Figure 3 - External cable descriptions
Figure 4 - Minimum HEMP shielding effectiveness requirements
(measured in accordance with procedures of
Appendix A)
Figure 5 - Typical vestibule entryway
Figure 6 - Typical waveguide-below-cutoff POE protective
devices
Figure 7 - Typical waveguide-below-cutoff array ventilation
POE protective device
Figure 8 - Typical electrical POE protective device
Figure 9 - Typical special protective volumes
Table I - Norton source parameters, waveforms, and acceptance
test loads for electrical POE injection
specifications
Table II - Maximum allowable residual internal response norms
for electrical POE injection specifications
Table III - Norton source parameters, waveforms, and
acceptance test loads for LLPM injection
specifications
Table IV - Maximum allowable residual response norms to LLPM
injection specifications
Table V - Verification test program options
APPENDIX A - SHIELDING EFFECTIVENESS (SE) TEST PROCEDURES FOR
TRANSPORTABLE GROUND-BASED SYSTEMS
APPENDIX B - PULSED CURRENT INJECTION (PCI) TEST PROCEDURES
FOR TRANSPORTABLE GROUND-BASED SYSTEMS
APPENDIX C - CONTINUOUS WAVE (CW) IMMERSION TEST PROCEDURES
FOR TRANSPORTABLE GROUND-BASED SYSTEMS
APPENDIX D - THREAD-LEVEL ILLUMINATION TEST PROCEDURES FOR
TRANSPORTABLE GROUND-BASED SYSTEMS
CONCLUDING MATERIAL
Gives the minimum performance requirements for low-risk protection from mission-aborting damage or upset due to HEMP threat environments given in MIL-STD-2169.
| Committee |
AREA TCSS
|
| DevelopmentNote |
NOTICE 1 - Notice of Validation. (04/2005)
|
| DocumentType |
Standard
|
| Pages |
148
|
| PublisherName |
US Military Specs/Standards/Handbooks
|
| Status |
Current
|
| AEP-41 VOL 5 : 2014 | NATO IMPLEMENTATION OF UNIFIED PROTECTION AGAINST ELECTROMAGNETIC ENVIRONMENTAL EFFECTS (UE[3]) |
| MIL STD 11991 : A | GENERAL STANDARD FOR PARTS, MATERIALS, AND PROCESSES |
| MIL-STD-464 Revision C:2010 | ELECTROMAGNETIC ENVIRONMENTAL EFFECTS REQUIREMENTS FOR SYSTEMS |
| IEC TR 61000-1-5:2004 | Electromagnetic compatibility (EMC) - Part 1-5: General - High power electromagnetic (HPEM) effects on civil systems |
| PD IEC/TR 61000-1-5:2004 | Electromagnetic compatibility (EMC) General - High power electromagnetic (HPEM) effects on civil systems |
| 02/204266 DC : DRAFT MAR 2002 | IEC 61000-1-5 TR. ED.1 - ELECTROMAGNETIC COMPATIBILITY (EMC) - PART 1-5: GENERAL - HIGH POWER ELECTROMAGNETIC (HPEM) EFFECTS ON CIVIL SYSTEMS |
| AEP-41 VOL 6 : 2014 | NATO IMPLEMENTATION OF UNIFIED PROTECTION AGAINST ELECTROMAGNETIC ENVIRONMENTAL EFFECTS (UE[3]) |
| FED-STD-1037 Revision C:1996 | TELECOMMUNICATIONS: GLOSSARY OF TELECOMMUNICATION TERMS |
| IEEE/ANSI C63.14-2014 REDLINE | American National Standard Dictionary of Electromagnetic Compatibility (EMC) including Electromagnetic Environmental Effects (E3) |
| MIL-HDBK-423 Base Document:1993 | HIGH-ALTITUDE ELECTROMAGNETIC PULSE (HEMP) PROTECTION FOR FIXED AND TRANSPORTABLE GROUND - BASED C4 1 FACILITIES - VOLUME 1 - FIXED FACILITIES |
| MIL-STD-100 Revision G:1997 | ENGINEERING DRAWINGS |
| MIL-STD-188-125-1 Base Document:1998 | HIGH-ALTITUDE ELECTROMAGNETIC PULSE (HEMP) PROTECTION FOR GROUND-BASED C[4]1 FACILITIES PERFORMING CRITICAL, TIME-URGENT MISSIONS PART 1 FIXED FACILITIES |
| MIL-HDBK-419 Revision A:1987 | GROUNDING, BONDING, AND SHIELDING FOR ELECTRONIC EQUIPMENTS AND FACILITIES - VOLUME 1: BASIC THEORY & VOLUME 2: APPLICATIONS |
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