1、 STANDARD FOR CONTROL, THERMOCOUPLE, EXTENSION AND INSTRUMENTATION CABLE ANSI/ICEA S-85-625-2016 2016 by INSULATED CABLE ENGINEERS ASSOCIATION, Inc. ANSI/ICEA S-85-625-2016 ANSI/ICEA S-85-625-2016 STANDARD FOR TELECOMMUNICATIONS CABLE AIRCORE, POLYOLEFlN INSULATED, COPPER CONDUCTOR TECHNICAL REQUIRE
2、MENTS Published By INSULATED CABLE ENGINEERS ASSOCIATION, INC. (ICEA) Sixth Edition Approved March 8, 2016 by Insulated Cable Engineers Association, Inc. Approved December 8, 2016 by ANSI ASC C-8 American National Standards InstituteANSI/ICEA S-85-625- 2016 ii Copyrighted by the ICEA Contents may n
3、ot be reproduced in any form without permission of the INSULATED CABLE ENGINEERS ASSOCIATION, INC. Copies of this publication may be obtained from: IHS 15 Inverness Way East Englewood, CO 80113-5776 USA Telephone: (800) 854-7179 ANSI/ICEA S-85-625- 2016 iii NOTICE AND DISCLAIMER The information in
4、this publication was considered technically sound by the consensus of persons engaged in the development and approval of the document at the time it was developed. Consensus does not necessarily mean that there is unanimous agreement among every person participating in the development of this docume
5、nt. The Insulated Cable Engineers Association, Inc. (ICEA) standards and guideline publications, of which the document contained herein is one, are developed through a voluntary consensus standards development process. This process brings together persons who have an interest in the topic covered by
6、 this publication. While ICEA administers the process and establishes rules to promote fairness in the development of consensus, it does not independently test, evaluate, or verify the accuracy or completeness of any information or the soundness of any judgments contained in its standards and guidel
7、ine publications. ICEA disclaims liability for personal injury, property, or other damages of any nature whatsoever, whether special, indirect, consequential, or compensatory, directly or indirectly resulting from the publication, use of, application, or reliance on this document. ICEA disclaims and
8、 makes no guaranty or warranty, expressed or implied, as to the accuracy or completeness of any information published herein, and disclaims and makes no warranty that the information in this document will fulfill any of your particular purposes or needs. ICEA does not undertake to guarantee the perf
9、ormance of any individual manufacturer or sellers products or services by virtue of this standard or guide. In publishing and making this document available, ICEA is not undertaking to render professional or other services for or on behalf of any person or entity, nor is ICEA undertaking to perform
10、any duty owed by any person or entity to someone else. Anyone using this document should rely on his or her own independent judgment or, as appropriate, seek the advice of a competent professional in determining the exercise of reasonable care in any given circumstances. Information and other standa
11、rds on the topic covered by this publication may be available from other sources, which the user may wish to consult for additional views or information not covered by this publication. ICEA has no power, nor does it undertake to police or enforce compliance with the contents of this document. ICEA
12、does not certify, test, or inspect products, designs, or installations for safety or health purposes. Any certification or other statement of compliance with any health or safety-related information in this document shall not be attributable to ICEA and is solely the responsibility of the certifier
13、or maker of the statement. ANSI/ICEA S-85-625- 2016 iv FOREWORD ICEA Standards are published in the public interest and are intended to promote product uniformity and quality throughout the industry. Existence of an ICEA publication does not in any respect preclude the manufacture or use of products
14、 not conforming to the Standard. The user of this Standard is cautioned to observe any applicable health or safety regulations and rules relative to the manufacture and use of cable made in conformity with this Standard. This Standard, hereafter assumes, that manufacture, testing, installation, and
15、maintenance of cables defined by this Standard will be performed only by properly trained personnel using suitable equipment and employing appropriate safety precautions. Requests for interpretation of this ICEA Standards must be submitted in writing (hard copy, email, or fax) to the Secretary of th
16、e Insulated Cable Engineers Association. The mailing address of ICEA Headquarters and a Contact link are shown on the website. This Standard was developed by the ICEA Communications Division, WG-625. It was approved by ICEA on September 14, 2010. First revision approved XX-XX-2016. The members of t
17、he ICEA Communications Cable Division, Working Group 625, who participated in this project, were: Chairman and Editor: Ron Stanko G. Dorna R. Gould ANSI/ICEA S-85-625- 2016 v TABLE OF CONTENTS CONTENTS: SECTION PAGE 1. GENERAL 1.1 Purpose . 1 1.2 Scope 1 1.3 Options and Information 1 1.4 Units and T
18、olerances 2 1.5 References 2 1.6 Quality Assurance . 2 1.7 Safety Considerations . 3 2. CONDUCTORS 2.1 Requirements 3 2.2 Factory Joints 4 3. CONDUCTOR INSULATION 3.1 Insulation Materials . 4 3.1.1 Propylene/Ethylene Copolymer . 4 3.1.2 High-Density Polyethylene 4 3.1.3 Medium-Density Polyethylene .
19、 4 3.2 Insulation Type 4 3.2.1 Solid 4 3.2.2 Foam . 4 3.2.3 Foam-Skin . 4 3.3 Insulation Dimensions, Colors, and Splices 4 3.4 Insulation Physical Requirements . 5 3.4.1 Insulation Adhesion . 5 3.4.2 Elongation . 5 3.4.3 Compression . 6 3.4.4 Cold Bend 6 3.4.5 Shrinkback . 6 3.4.6 Thermal Oxidative
20、Stability 6 3.5 Twist Length and Color Coding . 7 4. CORE CONSTRUCTIONS 4.1 Core Assembly 7 4.2 Binders 9 4.3 Spare Pairs . 10 4.4 Core Wrap . 10 4.5 Self-Support (Figure 8) Cable . 11 4.5.1 Support Messenger . 11 4.5.2 Undulated Core . 11 ANSI/ICEA S-85-625- 2016 vi TABLE OF CONTENTS CONTENTS: SECT
21、ION PAGE 4.5.3 Dimensions 11 4.5.4 Reinforced Self-Support 11 4.6 Flooding Compound 11 5. INTERNAL SCREENS 5.1 Description 11 5.2 Screen Material . 12 5.2.1 Film Delamination 12 5.3 Service Pairs . 12 6. SHIELDS 6.1 Shielding Systems . 12 6.2 Shield Materials . 13 6.2.1 8-mil Bare Aluminum Tape 13 6
22、.2.2 8-mil Coated Aluminum Tape 13 6.2.3 5-mil Copper Tape . 13 6.2.4 5-mil Copper Clad Alloy Steel Tape . 13 6.2.5 5-mil Copper Clad Stainless Steel Tape 14 6.2.6 6- and 7-mil C194 Copper Alloy Tapes 14 6.2.7 5-mil C230 Copper Alloy Tape 14 6.2.8 6-mil Bare Steel Tape 14 6.2.9 6-mil Coated Steel Ta
23、pe 15 6.3 Shield Application 15 6.3.1 Shield Corrugation 15 6.3.2 Residue Forming/Corrugating Oil . 15 6.3.3 Shield Overlap 15 6.3.4 Shield Splices . 16 6.4 Corrosion Resistance 16 6.5 Gopher Resistance Test 16 7. POLYETHYLENE INNER AND OUTER JACKETS 7.1 Inner Jacket . 17 7.1.1 Material and Test Req
24、uirements . 17 7.1.2 Inner Jacket Thickness Requirement 17 7.2 Outer Jacket 18 7.2.1 Raw Material . 18 7.2.2 Outer Jacket Thickness Requirement 18 7.2.3 Completed Cable Material Requirements 19 7.2.4 Shrinkback . 21 ANSI/ICEA S-85-625- 2016 vii TABLE OF CONTENTS CONTENTS: SECTION PAGE 7.2.5 Sheath A
25、dherence - Flooded . 21 7.2.6 Sheath Adherence - Bonded . 21 8. ELECTRICAL REQUIREMENTS 8.1 DC Resistance 21 8.2 DC Resistance Unbalance 22 8.3 Mutual Capacitance. 22 8.3.1 Final Product 100% Testing 22 8.4 Pair-to-Pair Capacitance Unbalance . 23 8.5 Pair-to-Ground Capacitance Unbalance 23 8.6 Atten
26、uation 23 8.7 Unit Crosstalk 23 8.7.1 Crosstalk Qualification Test . 24 8.8 Between-Compartment Crosstalk for Screened Cables 25 8.8.1. Requirements for all Applications . 25 8.8.2 Requirements for T-1C and Similar Applications 25 8.8.3 Qualification Test Procedure 25 8.9 Insulation Resistance 26 8.
27、10 Conductor-To-Conductor DC Proof Test . 26 8.10.1 Alternate Test Protocols . 27 8.11 Core-To-Shield DC Proof Test 27 8.12 Core-To-Screen DC Proof Test . 27 8.13 Shield Resistance . 27 8.14 Continuity of Metallic Cable Elements . 27 9. MECHANICAL REQUIREMENTS 9.1 Cable Bend Test . 27 9.1.1 Cold Ben
28、d Test 27 9.1.2 Hot Bend Test . 28 9.2 Cable Impact . 28 9.3 Cable Torsion Test 28 10. GENERAL REQUIREMENTS 10.1 Identification and Marking . 28 10.1.1 Identification . 29 10.1.2 Length Marking 29 10.1.3 Defective Pair Marking . 30 ANSI/ICEA S-85-625- 2016 viii TABLE OF CONTENTS CONTENTS: SECTION PA
29、GE 10.1.4 Communication Cable Identifier . 30 10.2 End Sealing . 30 10.3 Information Accompanying the Reel . 30 10.4 Pressurization . 31 10.5 Optional Requirements 31 10.5.1 Physical Reel Protection 31 10.5.2 Pulling Eyes . 31 TABLES Table 1: Specifications Referenced in This Standard 32 Table 2-1 C
30、onductor Diameter 3 Table 2-2 Conductor Elongation . 4 Table 3-1 Insulation Colors . 5 Table 3-2 Conductor Adhesion . 5 Table 3-3 Insulation Compression 6 Table 3-4 Pair Designation and Color Code 7 Table 4-1 Group Binder Color Code 8 Table 4-2 Super-Unit Binder Color Code 9 Table 4-3 Color Code for
31、 Spare or Service Pairs . 10 Table 6-1 Copper Alloy Tape Minimum Thickness . 14 Table 6-2 Steel Composition Limits . 15 Table 6-3 Shield Tape Tensile Load 16 Table 7-1 Minimum Inner Jacket Thickness . 18 Table 7-2 Outer Jacket Thicknesses 19 Table 7-3 Completed Cable Jacket Material Requirements . 2
32、0 Table 8-1 Maximum DC Resistance. 22 Table 8-2 Conductor Resistance Unbalance 22 Table 8-3 Mutual Capacitance . 22 Table 8-4 Pair-to-Ground Capacitance Unbalance 23 Table 8-5 Average Attenuation 23 Table 8-6 Power Sum Equal Level Far End Crosstalk (PSELFEXT) . 24 Table 8-7 Power Sum Near End Crosst
33、alk (PSNEXT) . 24 Table 8-8 Conductor-to-Conductor dc Test Voltages . 26 Table 10-1 Pulling Eye Load Factor . 31 ANSI/ICEA S-85-625- 2016 ix TABLE OF CONTENTS CONTENTS: SECTION PAGE FIGURES Figure 1-A: Polyethylene Jacket Thickness Requirements for Self-Support (Figure 8) Cable - Option A . 35 Figur
34、e 1-B: Polyethylene Jacket Thickness Requirements for Self-Support (Figure 8) Cable - Option B . 36 Figure 1-C Polyethylene Jacket Thickness Requirements for Reinforced Self-Support (Figure 8) Cable 37 Figure 2: Forming of Steel Tape Overlap . 38 Figure 3: Sheath Adherence Sample Preparation 41 APPE
35、NDICES Appendix A: Wicking and Hygroscopicity Test Procedures . 42 Figure A-1 . 43 Appendix B: Excess Core Test Procedure 44 Figure B-1, Excess Core Test Setup . 45 Appendix C: Metallic Tape Splice Breaking Strength, Percent Retention . 47 Appendix D: Standard Internally Screened (IS) Cable Pair Cou
36、nts 48 Appendix E Corrosion Resistance . 50 ANNEXES Informative Annex A: Product Guide . A-1 Informative Annex B: ICEA Telecommunication Cable Standards B-1 ANSI/ICEA S-85-625- 2016 x ACRONYMS, ABBREVIATIONS AND SYMBOLS ANSI American National Standards Institute ASTM American Society for Testing and
37、 Materials AWG American Wire Gauge C Degrees of Temperature, Celsius scale, Centigrade dB decibel dc Direct Current EIA Electronic Industries Alliance ELFEXT Equal Level Far-End Crosstalk F Degrees of Temperature, Fahrenheit scale ft foot or feet g gram ICEA Insulated Cable Engineers Association in
38、inch ISO - International Organization for Standardization kHz kilohertz kV kilovolt lb pounds lbf pounds of force MHz Megahertz m meter mm millimeter MPa megapascal N Newton nF nanofarad NEXT Near-End Crosstalk NESC National Electrical Safety Code ns nanoseconds pF picofarad PSELFEXT power sum equal
39、 level far end crosstalk PSNEXT power sum near end crosstalk psi pounds per square inch rms root mean square Attenuation ANSI/ICEA S-85-625- 2016 1 ICEA STANDARD FOR AIRCORE, POLYOLEFIN INSULATED, COPPER CONDUCTOR TELECOMMUNICATIONS CABLE TECHNICAL REQUIREMENTS SECTION 1 GENERAL 1.1 PURPOSE: The pur
40、pose of this Standard is to establish generic technical requirements that may be referenced by individual telecommunications cable specifications covering products intended for normal outside plant use. The parameters covered provide material, construction, and performance requirements that are appl
41、icable to aircore, polyolefin insulated and jacketed cables of all pair counts, including a variety of shield and jacket combinations and optional compartmental screening. Because this Standard does not cover all details of individual cable design, it cannot be used as a single document for procurem
42、ent of product. It is intended to be used in conjunction with an individual product specification that provides complete design details for the specific cable type and designates the applicable performance requirements. Such individual cable specifications may be prepared either by the user or the m
43、anufacturer. The specification designated for procurement is at the option of the user. 1.2 SCOPE: This Standard covers mechanical and electrical requirements for aircore, polyolefin insulated, copper conductor telecommunications cable. It provides alternative choices for type of insulation, core as
44、sembly, color code, sheath design (shielding materials, single or double jackets, and jacket thickness), and screened or non-screened core. 1.3 OPTIONS AND INFORMATION: These cables are traditional outside plant (OSP) cables having a nominal mutual capacitance at 1 kHz of 52 nF/km (83 nF/mile), with
45、 attenuation and crosstalk characterized at discrete frequencies up to 6.3 MHz. For cables characterized above 6.3 MHz, refer to ICEA S-99-688, Broadband Twisted Pair Cable, Aircore, Polyolefin Insulated, Copper Conductors. This Standard is arranged in Sections. Each covers one specific area of cabl
46、e requirement and may be referenced as complete Sections or as individual paragraphs. ANSI/ICEA S-85-625- 2016 2 Sections of this Standard where the user may specify a particular option are listed below: 2.1 Conductor Size 3.2 Insulation Type 4.1.3 Core Layup 4.3 Spare Pairs 4.5.2 Undulated Core 4.5
47、.3 Figure 8 dimensions 4.5.4 Reinforced Self-Support 4.6 Flooding Compound 5.1 Internal Screens 6.1 Shielding Systems 6.2.2 One or Two Side Coated Aluminum 6.2.9 One or Two Side Coated Steel 6.3 Shield Application 7.1 Inner Jacket 7.2.1 Outer Jacket (Material Type) 8.8.2 T1-C Applications 10.1.2 Len
48、gth Markings 10.4 Pressurization 10.5 Optional Requirements To assist the user in selection of options and to avoid possible misunderstandings between the manufacturer and user, it is suggested that a check-off sheet similar to that shown in Informative Annex A be used. 1.4 UNITS AND TOLERANCES: SI
49、units (see NIST-SP 811) are specified throughout this Standard except for conductor size. Approximate US equivalents and Fahrenheit temperatures are provided for information only. The rounding-off method of ASTM E 29 shall be used for determining conformance with requirements. 1.5 REFERENCES: All documents referenced herein shall be as listed in Table 1 with issues or dates as indicated. When a specific date or issue number is not indicated, the latest issue shall be used. 1.6 QUALITY ASSURANCE: It is the responsibi