IEEE 1143 1995

$66.08

IEEE Guide on Shielding Practice for Low Voltage Cables

Published By	Publication Date	Number of Pages
IEEE	1995	79

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Description

New IEEE Standard – Active. A concise overview of shielding options for various types of interference and recommendations on shielding practices, including suggestions on terminating and grounding methods, are provided.

PDF Catalog

PDF Pages	PDF Title
1	Title Page
3	Introduction Participants
5	CONTENTS
7	1. Overview 1.1 Scope 1.2 Purpose 2. References
8	3. Definitions
11	4. Nature of interference 4.1 Definition of sources 4.2 Nature of interference 4.3 Source-circuit interaction
12	4.4 Types of interference
13	4.5 Sources of electromagnetic interference (EMI)
14	4.6 Electrical noise produced by power processing and control
15	5. Types of cable shielding 5.1 Introduction
17	5.2 Solid tube shield
18	5.3 Single layer foil shield with drain wire
20	5.4 Multilayer shield with drain wire 5.5 Spiral shield 5.6 Braided wire shield
21	5.7 Combination shields
22	5.8 Overall shields
24	5.9 Conductive plastics
25	5.10 Shield and armor options
27	5.11 Balanced mode transmission on twisted pairs
30	5.12 Balanced mode transmission on shielded twisted pairs
32	5.13 Twisted pairs for transmission of high-speed data 6. Shielding application principles 6.1 Functions
33	6.2 Single or multiconductor 6.3 Dedicated or multiplexed 6.4 Cable construction types 6.5 Cable selection
35	6.6 Shield types—application guide
36	7. Grounding and installation 7.1 Introduction
37	7.2 Shield grounded at one end 7.3 Shield grounded at both ends 7.4 Transient protection with overall shields
40	7.5 Grounding of cable with foil shields and overall shields
43	8. Shield testing methods 8.1 General 8.2 Continuous wave test methods
45	8.3 Testing of overall shield for single or multiconductor cable
50	9. Characterization of shielding 9.1 General 9.2 Shielding properties
51	9.3 Architectural shielding effectiveness
52	9.4 Transfer impedance
54	9.5 Shielding effectiveness of overall shield
55	9.6 Reduction factor with overall shields
56	9.7 Transient (lightning) protection by overall shields
57	9.8 Aging effect on shielding
63	10. Electrical noise susceptibility 10.1 Introduction
64	10.2 Galvanic action 10.3 Combination effect
65	10.4 Transients or repetitive noise
68	10.5 Nonlinear distortion
69	11. Interaction (coupling) 11.1 Introduction 11.2 Impedance coupling or common impedance coupling 11.3 Magnetic coupling 11.4 Quasistatic electric coupling 11.5 Coupling by electromagnetic radiation
70	11.6 Crosstalk 11.7 Crosstalk between coaxial cables 11.8 Electromagnetic crosstalk
71	12. Electrical noise susceptibility 12.1 Introduction
72	12.2 System boundaries
73	12.3 Sensitivity to noise 12.4 General susceptibility 12.5 Susceptibility to transient electrical noise 13. Noise induced from power systems 13.1 Introduction
74	13.2 Interaction model
76	14. Bibliography