IEEE 789-2013

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IEEE Standard Performance Requirements for Communications and Control Cables for Application in High-Voltage Environments

Published By	Publication Date	Number of Pages
IEEE	2013

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Description

Revision Standard – Active. Information to assist in determining the electrical parameters of communication and control cables necessary to improve the overall reliability of these cables when used in high-voltage environments is the objective of this standard. There should be a very high probability (greater than 99%) that these cables will perform their intended function for specified periods of time in high-voltage interference conditions. The end result being more reliable communications over said cables. The information presented in this standard will apply equally to either new or existing [already installed] cables.

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PDF Pages	PDF Title
1	IEEE Std 789™-2013 front cover
3	Title page
6	Notice to users Laws and regulations Copyrights Updating of IEEE documents Errata Patents
8	Participants
10	Introduction
11	Contents
13	IMPORTANT NOTICE 1. Overview 1.1 Scope
14	1.2 Purpose 1.3 General 2. Normative references
16	3. Definitions
18	3.1 Acronyms and abbreviations
19	4. General information 4.1 Electric supply location environment
20	5. Basic requirements 5.1 General 5.1.1 Communication cables 5.1.2 Control cables 5.1.3 Instrumentation cables
21	5.2 Basic requirements 5.3 Ethernet cable requirements 5.4 Typical cable jacket requirements within an electric supply location 5.4.1 Double jacketed cables 5.5 Information to be supplied by user
22	5.5.1 Operating voltage 5.5.2 Operating current 5.5.3 Operating frequency range 5.6 Ambient environmental conditions 6. Environmental considerations 6.1 General 6.2 Temperature
23	6.3 Humidity 6.4 Mechanical shock 6.5 Altitude 6.6 Ultraviolet 6.7 Chemical environment 6.8 Fungus 6.9 Insects or rodents 6.10 Lightning
24	7. Electrical requirements 7.1 Electrical environment conditions 7.1.1 Electric Field intensity (E-Field). 8. Installation practices 8.1 General types of cable plant
25	8.1.1 Outdoor 8.1.1.1 Overhead (aerial) joint use 8.1.1.2 Overhead (aerial) non-joint use 8.1.1.3 Underground joint use
26	8.1.1.4 Underground non-joint use 8.1.2 Indoor 8.2 Interference mitigations 8.2.1 Coupling to power cables 8.2.1.1 Capacitive coupling 8.2.1.2 Inductive coupling
27	8.2.1.3 Resistive Coupling 8.2.2 Grounding 8.2.2.1 Ground isolation within the ZOI of an electric supply location 8.2.2.2 Grounding outside the ZOI 8.2.2.3 Bonding inside the electric supply location
28	9. Cable design requirements 9.1 General 9.2 Conductors Factory joints made in conductors during the manufacturing process shall comply with the requirements in ICEA S-84-608. 9.3 Insulation of conductors 9.4 Color scheme of conductors
29	9.5 Forming of pairs 9.6 Assembly 9.7 Core wrap 9.8 Insulating jacket 9.9 Routine tests on all cables 9.10 Dielectric strength of cables
30	9.11 Tests on sample pairs
31	9.11.1 Conductor resistance
32	9.11.2 Resistance unbalance 9.11.3 Mutual capacitance 9.11.4 Capacitance unbalance 9.11.5 Crosstalk loss 9.11.6 Longitudinal balance
33	9.11.7 Characteristic impedance 9.11.8 Attenuation
34	9.12 Physical requirements 9.12.1 Mandrel test 9.13 Certified test report
35	9.14 Ordering cable 9.15 Shipping 9.15.1 Standard pair complements 9.15.2 Special pair complements
36	9.15.3 Preparation for shipment 9.15.4 Storage 10. Testing and test methods 10.1 General 10.2 Design tests
37	10.3 Routine production tests 10.4 Physical tests 10.4.1 Test temperatures 10.4.2 Mechanical (dimensional) tests 10.4.2.1 Conductor tests
38	10.4.2.2 Thickness measurements for insulation and nonmetallic jackets 10.4.2.3 Thickness of metallic tapes 10.4.2.4 Thickness of metallic sheaths 10.4.2.5 Thickness of compound-filled tape 10.4.2.6 Verification of color code and identification marker 10.4.2.7 Verification of maximum length of pair twist 10.4.3 Aging tests 10.4.4 Heat shock 10.4.5 Heat distortion
39	10.4.6 Cold bend 10.4.6.1 On PVC insulation on conductors 10.4.6.2 On thermoplastic jackets 10.4.7 Flame test 10.4.8 Tensile, elongation, and brittleness 10.4.8.1 Tensile strength test 10.4.8.2 Elongation test 10.4.8.3 Brittleness 10.4.9 Accelerated water absorption test 10.4.10 Chemical resistance 10.4.10.1 Ozone resisting test 10.4.10.2 Environmental cracking
40	10.4.11 Pressurization 10.5 Electrical tests 10.5.1 Conductor resistance and resistance unbalance 10.5.2 Insulation resistance 10.5.2.1 Test apparatus 10.5.2.2 Test procedures
41	10.5.3 Mutual capacitance and capacitance unbalance 10.5.3.1 Mutual capacitance — pairs 10.5.3.2 Mutual capacitance — quads 10.5.3.3 Capacitance unbalance — pair to pair 10.5.4 Crosstalk
42	10.5.5 Dielectric tests 10.5.5.1 Between tip and ring conductors 10.5.5.2 Conductor to shield 10.5.5.3 Conductor and shield to ground 10.5.6 Impulse voltage tests 10.5.7 Dielectric tests after Installation
43	Annex A (informative) Bibliography
45	Annex B (informative) Insulation and jacketing PE compounds for conductors
46	Annex C (informative) Attenuation information
48	Annex D (informative) Capacitance unbalance and characteristic impedance information D.1 Capacitance unbalance D.2 Characteristic impedance – equation

Additional information

Standard Title	IEEE Standard Performance Requirements for Communications and Control Cables for Application in High-Voltage Environments
Published Code	IEEE
Publication Date	2013

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IEEE 789-2013

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