Shipboard electromagnetics / Preston E. Law.
By: Law, Preston E.
Material type: BookSeries: Artech House antenna library.Publisher: Boston : Artech House, c1987Description: xv, 262 p. : ill. ; 24 cm. + hbk.ISBN: 0890062471.Subject(s): United States. Navy -- Electronic installations | Electronics in military engineering | Ships -- Electronic equipmentDDC classification: 359.85Item type | Current library | Call number | Copy number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|---|
General Lending | MTU National Maritime College of Ireland Library Lending | 359.85 (Browse shelf(Opens below)) | 1 | Available | 00109166 |
Total holds: 0
Bibliography: p. 257 - Includes index.
Table of contents provided by Syndetics
- Preface (p. xii)
- Acknowledgements (p. xiii)
- Introduction (p. xiv)
- Chapter 1 Historical Background (p. 1)
- 1-0 Prelude (p. 1)
- 1-1 Naval Adoption of Electromagnetics (p. 2)
- 1-2 Early Attempts to Reduce Wireless Interference (p. 6)
- 1-3 From RFI to EMI (p. 7)
- 1-3.1 World War II Naval Electronics and RFI (p. 7)
- 1-3.2 Postwar Efforts (p. 8)
- 1-3.3 EMC and the Vietnam War Period (p. 9)
- 1-4 The Modern Era (p. 12)
- 1-4.1 Emerging Management Interests (p. 12)
- 1-4.2 Establishment of TESSAC (p. 13)
- 1-4.3 Implementation of EMC Management (p. 15)
- 1-4.4 Rising Interest in EMP (p. 17)
- 1-4.5 The Current Status (p. 17)
- 1-5 Conclusion (p. 19)
- Chapter 2 The Shipboard Electromagnetic Environment (EME) (p. 23)
- 2-0 The Tangible Environment (p. 23)
- 2-1 The Composite RF Energy Environment (p. 25)
- 2-2 Effects of the Shipboard EME (p. 25)
- 2-3 EME Control Techniques (p. 27)
- 2-4 Predicting the Shipboard EME (p. 28)
- 2-4.1 Derivation of the Projected EME (p. 30)
- 2-4.2 EME Definition Guidance (p. 31)
- Chapter 3 Shipboard Electromagnetic Compatibility (EMC) (p. 33)
- 3-0 Defining EMC (p. 33)
- 3-1 Implementing EMC Measures (p. 34)
- 3-1.1 The EMC Program Plan (p. 34)
- 3-1.1.1 Frequency Spectrum Management (p. 35)
- 3-1.1.2 The EMCAB (p. 36)
- 3-1.1.3 The EMI Control Plan (p. 38)
- 3-1.2 EMC Test and Evaluation (p. 39)
- 3-1.3 EMC Configuration Management (p. 40)
- 3-1.4 EMC Training and Awareness (p. 41)
- Chapter 4 Shipboard Electromagnetic Interference (EMI) (p. 45)
- 4-0 The Shipboard EMI Problem (p. 45)
- 4-1 Sources of Shipboard EMI (p. 45)
- 4-1.1 Natural Sources of Shipboard EMI (p. 47)
- 4-1.2 Man-Made Sources of Shipboard EMI (p. 47)
- 4-2 Shipboard EMI Control (p. 57)
- 4-2.1 Shielding Techniques (p. 58)
- 4-2.1.1 Shielding Theory (p. 58)
- 4-2.1.2 Shielding Methods and Materials (p. 68)
- 4-2.2 Grounding and Bonding Techniques (p. 104)
- 4-2.2.1 General Definitions (p. 104)
- 4-2.2.2 Bonding Classifications (p. 105)
- 4-2.2.3 Grounding Requirements (p. 108)
- 4-2.2.4 RF Bonding Procedures for EMI Control (p. 121)
- 4-2.3 Nonmetallic Topside Material Techniques (p. 131)
- 4-2.4 EMI Filtering Techniques (p. 140)
- 4-2.4.1 Filter Classification and Characteristics (p. 142)
- 4-2.4.2 Shipboard Filter Applications (p. 143)
- 4-2.4.3 Filter Installation Precautions (p. 147)
- 4-2.5 EMI Blanking Techniques (p. 148)
- 4-2.6 Topside Systems Arrangement Techniques (p. 150)
- 4-2.6.1 Antenna Interference Characteristics (p. 151)
- 4-2.6.2 Preliminary Antenna Arrangement Considerations (p. 152)
- 4-2.6.3 The Topside Systems Design Team (p. 153)
- 4-2.6.4 HF Antenna System Integration (p. 154)
- 4-2.6.5 EMC Considerations (p. 160)
- 4-2.6.6 Candidate Antenna Systems Arrangements (p. 162)
- 4-2.6.7 Post-Design Phase (p. 162)
- 4-2.7 Tempest Electromagnetics (p. 163)
- Chapter 5 Shipboard Electromagnetic Radiation Hazards (EMR) (p. 167)
- 5-0 The Radiation Hazards Problem In General (p. 167)
- 5-1 Biological Effects of Radiation (p. 168)
- 5-2 Shipboard Hazards of Electronmagnetic Radiation to Personnel (HERP) (p. 170)
- 5-2.1 Origin of Radiation Exposure Limits (p. 171)
- 5-2.2 Emergence of Modern Radiation Exposure Standards (p. 171)
- 5-2.3 Shipboard Permissible Exposure Criteria (p. 172)
- 5-2.4 Shipboard EMR Hazards Protection Techniques (p. 175)
- 5-2.4.1 Ship Design Criteria to Control EMR Hazards (p. 177)
- 5-2.4.2 EMR Hazards Measurements and Analysis (p. 179)
- 5-3 Hazards of Electromagnetic Radiation to Fuel (HERF) (p. 192)
- 5-3.1 The Nature of HERF Combustion (p. 193)
- 5-3.2 Shipboard Fueling Precautions (p. 194)
- 5-4 Hazards of Electromagnetic Radiation to Ordnance (HERO) (p. 196)
- 5-4.1 HERO Classifications (p. 196)
- 5-4.2 HERO Controls in Port and Territorial Seas (p. 197)
- 5-4.3 Shipboard HERO Controls (p. 197)
- 5-4.4 Shipboard HERO Surveys (p. 201)
- Chapter 6 Shipboard Electromagnetic Pulse (EMP) (p. 205)
- 6-0 Preparation for an Eventuality (p. 205)
- 6-1 EMP Characteristics (p. 206)
- 6-1.1 High-Altitude EMP Generation (p. 207)
- 6-1.2 High-Altitude EMP Electrical Properties (p. 211)
- 6-2 Shipboard EMP Damage Effects (p. 213)
- 6-3 Shipboard EMP Hardening Techniques (p. 216)
- 6-3.1 EMP Shielding and Grounding (p. 217)
- 6-3.1.1 Cable Shielding Requirements (p. 218)
- 6-3.1.2 Waveguides, Pipes, and Metal Tubes Grounding (p. 221)
- 6-3.2 Circuit Protection Devices (p. 221)
- 6-4 EMP Testing and Modeling (p. 227)
- 6-4.1 EMPRESS Testing (p. 228)
- 6-4.2 EMP Modeling (p. 230)
- 6-4.2.1 EMPAL Analysis Process (p. 230)
- 6-4.2.2 Scale Modeling Process (p. 232)
- Chapter 7 Shipboard Electromagnetic Assessment (EMA) (p. 235)
- 7-0 The Need for Predictive Analysis (p. 235)
- 7-1 Predictive Analysis Techniques (p. 236)
- 7-2 Electromagnetic Assessment Modeling (p. 238)
- 7-2.1 SEMCAC Modeling (p. 240)
- 7-2.2 SEMCAM Modeling (p. 240)
- 7-2.3 TDM Performance Assessments (p. 241)
- 7-2.3.1 TDM Geometry (p. 242)
- 7-2.3.2 TDM Omnidirectional Antenna Performance Evaluation (p. 244)
- 7-2.3.3 TDM Directive Antenna Performance Evaluation (p. 248)
- 7-2.3.4 Shipboard EM Assessment Summary (p. 250)
- Glossary (p. 255)
- Bibliography (p. 257)
- Index (p. 259)