AEP-41 VOL 1 : 2004
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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UNIFIED ELECTROMAGNETIC ENVIRONMENTAL EFFECTS (UE[3]) PROTECTION, PHILOSOPHY AND METHODOLOGY
Hardcopy , PDF
03-13-2023
English
02-01-2004
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1.0 TABLE OF CONTENTS
2.0 AEP 41, EXECUTIVE SUMMARY
2.1 INTRODUCTION TO AEP 41
2.1.1 Balanced E[3] Protection
2.1.2 E[3] Protection Needs
2.1.3 Methodology
2.2 SCOPE FOR AEP 41
2.2.1 Volume I
2.2.2 Volume II
2.2.3 Volume III
2.2.4 Volume IV
2.2.5 Volume V
2.2.6 Volume VI
2.2.7 Volume VII
2.3 REQUIREMENTS
3.0 AEP 41, VOLUME I, EXECUTIVE SUMMARY
3.1 INTRODUCTION
3.1.1 Philosophy
3.1.2 Methodology
3.2 SCOPE FOR AEP 41, VOLUME I
3.2.1 Philosophy and Methodology
3.2.2 Risks
4.0 UNIFIED ELECTROMAGNETIC ENVIRONMENTAL EFFECTS PROTECTION
4.1 OVERVIEW
4.1.1 General
4.1.2 Electromagnetic Environments (EMEs)
4.1.3 Electromagnetic Environmental Effects (E[3])
Survivability
4.1.3.1 UE[3] Protection
4.1.3.2 Alternate and Special Protection Methods
4.1.3.2.1 Alternate Methods
4.1.3.2.2 Special Protection Methods
4.1.4 Evolution of Electronics and Increased COTS/NDI Usage
4.1.5 Unified E[3] Protection Approach Overview
4.1.5.1 General
4.1.5.2 Route to Adequate Protection
4.1.5.2.1 Development of E[3] Protection
4.1.5.2.2 Hardening Requirement
4.1.5.2.3 Testing and Validation of UE[3]
Protection
4.1.5.2.4 Stress Transfer Function
4.2 LIFE-CYCLE APPLICATION OF THE UE[3] PROTECTION PHILOSOPHY
AND METHODOLOGY
4.2.1 General
4.2.2 Phase 1: Concept Definition
4.2.2.1 General
4.2.2.2 Requirements
4.2.2.3 Unified E[3] Protection Concept
4.2.2.3.1 General
4.2.2.3.2 EM Barrier Protection Concept
4.2.2.4 Life-Cycle Program
4.2.3 Phase 2: Engineering Development
4.2.3.1 General
4.2.3.2 E[3] Allocation Process Overview
4.2.3.3 Unified E[3] Protection Allocation
4.2.3.3.1 Performance Requirements
4.2.3.3.2 Allocation Process
a. MSCEs Immunity
b. Margin
c. Internal Residuals
d. External EME Stress
e. Barrier Performance
Requirements
4.2.3.4 Design for a Linear Application
4.2.3.4.1 Unified Barrier Performance
Requirements (Single EME &
Immunity)
a. General Approach
1) EME/Immunity
2) Margin
3) Residual and Performance
Requirements
b. Enclosure Port Performance
Requirements
c. Penetration Port Performance
Requirements
1) Penetration Port
2) Immunity Equivalent Source
3) Penetration Equivalent Source
4) Performance Requirements
4.2.3.4.2 Unified Barrier Performance
Requirements (Single EME and
Multiple Immunities)
a. Specific Performance
Requirements (One MSCE)
b. Specific Performance
Requirements (Multiple MSCEs)
4.2.3.4.3 Unified Barrier Performance
Requirements (Multiple EMEs and
Immunities)
a. General
b. Unified Performance Requirements
for Ports
c. Unified Performance Requirements
for EMEs
4.2.3.4.4 Allocations for Internally Generated
EMEs
4.2.3.4.5 Design for Non-Linear Application
4.2.3.5 Testing
4.2.3.5.1 Tests
4.2.3.5.2 Unification of Tests
4.2.3.6 Life-Cycle Database
4.2.4 Phase 3: Production
4.2.4.1 General
4.2.4.2 Quality Assurance and Control
4.2.4.3 Testing
4.2.4.4 Life-Cycle Database
4.2.5 Phase 4: Deployment
4.2.5.1 General
4.2.5.2 Traditional Factors
4.2.5.3 Modern Factors
4.2.5.3.1 General
4.2.5.3.2 Operational Status
a. DMSMS
b. Improved Capabilities
c. COTS/NDIs
d. Modernization Through Spares
4.2.5.3.3 Technology
4.2.5.4 Life-Cycle Database
4.2.6 Surveillance Test (ST)
4.2.6.1 Hardness Assurance
4.2.6.2 Sustainment Assurance
4.2.6.3 Life-cycle Database
5.0 SUMMARY
6.0 CONCLUSIONS
7.0 APPENDIX
7.1 REFERENCES
7.2 ACRONYMS
7.3 DEFINITION
Describes an approach for achieving adequate, affordable and balanced UE[3] protection and survivability in the battlespace for all classes of NATO military platforms, systems, and equipments (all three defined as hardware) of the six operational categories.
| DocumentType |
Standard
|
| Pages |
74
|
| PublisherName |
NATO
|
| Status |
Superseded
|
| SupersededBy |
| STANREC 4567 : 2014 | NATO IMPLEMENTATION OF UNIFIED PROTECTION AGAINST ELECTROMAGNETIC ENVIRONMENTAL EFFECTS (UE3) |
| DEFSTAN 59-188(PT2)/2(2017) : 2017 | HIGH ALTITUDE ELECTROMAGNETIC PULSE (HEMP) PROTECTION FOR GROUND BASED COMMUNICATION FACILITIES PERFORMING CRITICAL, TIME-URGENT MISSIONS - PART 2: TRANSPORTABLE AND MOBILE SYSTEMS |
| DEFSTAN 59-188(PT1)/2(2014) : 2014 | HIGH ALTITUDE ELECTROMAGNETIC PULSE (HEMP) PROTECTION FOR GROUND BASED COMMUNICATION FACILITIES PERFORMING CRITICAL, TIME-URGENT MISSIONS - PART 1: FIXED FACILITIES |
| STANAG 3659 : 2002 | ELECTRICAL BONDING REQUIREMENTS FOR METALLIC AIRCRAFT SYSTEMS |
| STANAG 3614 : 2002 | ELECTROMAGNETIC ENVIRONMENTAL EFFECTS (E[3]) - REQUIREMENTS FOR AIRCRAFT SYSTEMS AND EQUIPMENT |
| MIL-STD-469 Revision B:1996 | INTERFACE STANDARD FOR RADAR ENGINEERING INTERFACE REQUIREMENTS, ELECTROMAGNETIC COMPATIBILITY |
| MIL-STD-464 Revision C:2010 | ELECTROMAGNETIC ENVIRONMENTAL EFFECTS REQUIREMENTS FOR SYSTEMS |
| IEEE/ANSI C63.14-2014 REDLINE | American National Standard Dictionary of Electromagnetic Compatibility (EMC) including Electromagnetic Environmental Effects (E3) |
| MIL-STD-461 Revision G:2015 | REQUIREMENTS FOR THE CONTROL OF ELECTROMAGNETIC INTERFERENCE CHARACTERISTICS OF SUBSYSTEMS AND EQUIPMENT |
| STANAG 4435 : 0 | ELECTROMAGNETIC COMPATIBILITY TESTING PROCEDURE AND REQUIREMENTS FOR NAVAL ELECTRICAL AND ELECTRONIC EQUIPMENT (SURFACE SHIP, METALLIC HULL) |
| STANAG 3516 : 2010 | ELECTROMAGNETIC INTERFERENCE, TEST METHODS FOR AIRCRAFT ELECTRICAL AND ELECTRONIC EQUIPMENT |
| SAE ARP 5412 : 2013 | AIRCRAFT LIGHTNING ENVIRONMENT AND RELATED TEST WAVEFORMS |
| STANAG 3856 : 0 | PROTECTION OF AIRCRAFT, CREW AND SUB-SYSTEMS IN FLIGHT AGAINST ELECTROSTATIC CHARGES - AEP-29 |
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