1、 ANSI/ICEA S-56-434-1983 ICEA S-56-434 83 9007014 0000437 9TT INSULATED CABLE ENGINEERS ASSOCIATION STANDARD FOR POLYOLEFIN INSULATED COMMUN KATION CABLES FOR OUTDOOR USE Approved by AMERICAN NATIONAL STANDARDS INSTITUTE March 28, 1986 PU BLICAT ION S-56-434 Fifth Edition - September 1983 01984 by I
2、NSULATED CABLE ENGINEERS ASSOCIATION, Inc. ICEA S-5b-434 83 9007014 O000438 836 ICEA 5-56-434-1983 Fifth Edition KEA STANDARD FOR POLYOLEFIN INSULATED COMMUN KATION CABLES FOR OUTDOOR USE Published By insulated Cable Engineers Association, Inc. Post Office Box P South Yarmouth, Massachusetts 02664,
3、U.S.A. First Printing February 1984 Approved September 21,1983 INSULATED CABLE ENGINEERS ASSOCIATION, INC. ICEA S-5b-434 83 9007014 0000437 772 H FOREWORD KEA publications are adopted in the public interest and are designed to eliminate misunderstanding between the manufacturer and user and to assis
4、t the user in selecting and obtaining proper products for his particular need. Existence of an KEA publication does not in any respect preclude the manufacture or use of products not conforming to the publication. The user of this publication is cautioned to observe any applicable health or safety r
5、egulations and rules relative to the manufacture and use of cable made in conformity with this publication. This publication hereafter assumes that manufacture, testing, installation and maintenance of cables defined by this publication will be performed only by properly trained personnel using suit
6、able equipment. Questions of interpretation of ICEA publications can only be accepted in writing at Headquarters by the Secretary, and the reply shall be provided in writing. Suggestions for improvements in this publication are welcome, and should be sent to ICEA at the address below. This publicati
7、on was approved by ICEA on September 21, 1983. The members of the ICEA Communications Cable (COM) Section Working Group 434 who developed this publication were: James S. Tyler, Chairman L. M. Hore E. D. Metcalf W. H. Englehart D. I. Marshall S. A. Mills W. A. Fallon V. B. Mascarenhas H. M. McNeil J.
8、 C. Fleckenstein T . G. McLaughlin B. W. Tyrrell T. G. Hardin The following served in an advisory capacity to WG 434: R. P. Collins A. G. Dwyer G. J. Hessler H. M. Hutson Copyrighted by the ICEA Contents may not be reproduced in any form without permission of the INSULATED CABLE ENGINEERS ASSOCIATIO
9、N, INC. Copies of this publication may be obtained from: INSULATED CABLE ENGINEERS ASSOCIATION, INC. Post Office Box P South Yarmouth, Massachusetts 02664 Telephone: (617) 394-4424 CONTENTS : ICEA S-56-434 83 9007034 0000440 494 m SECTION PAGE 1 . GENERAL 1.1 Scope . 1 1.2 Cable Designations 1 1.4 R
10、eferences 3 1.5 Quality Assurance . 3 1.3 Units . 3 2 . CABLE CORE CONSTRUCTION 2.1 Conductors 3 2.2 Insulation 4 2.3 Color Code of Pairs . 5 2.4 Forming of Pairs 6 2.5 Forming of Core . 7 2.6 Internally Screened Cable 10 2.7 Cable Core Filling . 11 2.8 Cable Core Covering 11 3 . CABLE SHEATHS 3.1 G
11、eneral 12 3.2 Shielding 14 3.3 Flooding Compound 16 3.4 Polyethylene Jacket 17 3.5 Integral Messenger . 18 3.6 Identification Marking . 20 3.7 Length Marking . 21 3.8 Remarking 21 4 . PACKING AND SHIPPING 21 5 . PERFORMANCE REQUIREMENTS 5.1 Electrical Requirements 23 5.2 Physical Requirements 32 5.3
12、 Parameter Variations. 34 5.4 Component Requirements . 35 5.5 Extent of Testing 40 6 . REFERENCES 6.1 American Society for Testing and Materials (ASTM) 41 6.2 Aluminum Association Inc . 42 6.3 Electronic Industries Association (EIA) 42 iii CONTENTS : ICEA S-5b-434 83 - 900701Y 0000441 320 SECTION PA
13、GE APPEND ICES Appendix A: Standard Pair Counts.43 Appendix B: Standard Internally Screened (IS) Cable Pair Counts44 Appendix C: Munsell Color Requirements . 45 Appendix D: NEXT Requirement Formulae For Internally Screened (IS) Cables46 ICEA S-56-434 83 9007034 0000442 267 ICEA STANDARD FOR FOR OUTD
14、OOR USE POLYOLEFIN INSULATED COMMUNICATION CABLES SECTION 1: GENERAL 1.1 SCOPE: This Standard covers design requirements for poly- olefin insulated communication cables for aerial, duct, and buried applications with and without internal screening. The construction and prformance requirements for the
15、 following types of cables are included: Type A: solid insulated and non-filled Type F: Type CF: cellular insulated and filled solid insulated and filled While the ultimate method of use and area of utilization is left to the discretion of the end user, the recommended areas of application of each c
16、able type are: Areas of Application* Underground Cable Type Aerial (in Ducts) Buried A R S* N F S R R CF S R R *R = Recommended for use S = Suitable for use N = Not recommended for use * when properly pressurized Standard pair counts in which these cable types are normally supplied are given in Appe
17、ndices A and B. 1.2 CABLE DESIGNATIONS: Specific cable constructions shall be identified by referencing the cable type and shield designation shown in Table 1. For self-supporting cables having an integral messenger, the designation “F8“ shall be added after the shield identification. For cables con
18、taining an internal screen(s), the letters llS“ shall be added at the end of the cable designation. ICEA S-56-434 3 9007034 0000443 LT3 TABLE 1 CUE DESIGNATIONS* TYPE: A= solid insulated and non-filled cables F= solid insulated and filled cables CF = cellular insulated and filled cables SHIELD CONST
19、RUCTION: AR = corrugated, resin coated aluminum AU = corrugated, uncoated aluminum ARF= flat, resin coated aluminum 5c = corrugated, 5 mil copper 1oc= corrugated, 10 mil copper cs = corrugated, copper-clad stainless steel CA = corrugated, 194 copper alloy ARSR = corrugated, resin coated aluminum plu
20、s resin coated steel AUSU = corrugated, uncoated aluminum plus uncoated steel SELF-SUPPORTING CABLE: F8 INTERNALLY SCREENED CABLE IS * Cables may be identified by specifying Type, Shield Construc- tion, and presence of integral messenger and/or internal screen(s). Examples: Cable Type A-AR is a soli
21、d insulated, non-filled cable having a corrugated, resin coated aluminum shield. Cable Type F-5C-F8 is a solid insulated, filled cable having a corrugated, 5 mil copper shield with an integral messenger. Cable Type CF-ARSR-IS is a cellular insulated, filled cable having corrugated, resin coated alum
22、inum and steel shields with an internal screen(s). Cable Type A-AF-F8-IS is a solid insulated, non-filled cable having a flat, resin coated aluminum shield with an integral messenger and internal screen(s). - 2- ICEA S-56-434 83 7007014 0000444 03T 1.3 UNITS: U.S. customary units are employed in thi
23、s Standard. Their approximate SI equivalents are included for information only. 1.4 REFERENCES: See Section 6 for a complete list of titles and dates of ASTM Standards and other standards to which reference is made herein. 1.5 QUALITY ASSURANCE: It is the responsibili-ty of the manufacturer to estab
24、lish quality assurance procedures which will ensure tha.t the product will meet the requirements of this Standard on a continuing basis. It is not intended that a complete testing program be carried out on every length of conductor and cable. When the purchaser wishes to specify acceptance tests or
25、other quality procedures, it is essential that agreement be reached between the purchaser and the manufacturer at the time of ordering. SECTION 2: CABLE CORE CONSTRUCTION 2.1 CONDUCTORS 2.1.1 Each conductor shall be solid, annealed copper and shall meet the requirements of ASTM B 3, except that the
26、requirements for “Dimensions and Permissible Variations” shall be waived. 2.1.2 The sizes of the conductor and their nominal diameters are given in Table 2. TABLE 2 Conduc tor Size (AWC, 28 26 24 22 19 16 Nominal Diameter I inches I (mm) O. 0126 0.0159 o. 0201 0.0253 O. 0359 O. 0508 (O. 320) (0.404)
27、 (0.511) (O. 643) (O. 912) (1.290) -3- - ICEA S-5b-434 83 9007034 O000445 T7b 2.1.3 Joints made in conductors during the manufacturing process shall be either butt brazed using a silver alloy solder and non-acid flux, or butt welded using either an electrical or cold welding technique. The joints sh
28、all be as small and as smooth as is consistent with good commercial practice and shall be free from sharp projections. Other methods of jointing may be used when mutually agreed to by the manufacturer and the purchaser. 2.1.4 Any section of conductor that includes a factory joint shall have a tensil
29、e strength not less than 85% of the tensile strength of an adjacent section of the solid conductor without a joint. 2.1.5 When a factory joint is made in an insulated conductor, the joint shall be insulated to meet the requirements of Paragraph 2.2.3. 2.2 2.2.1 INSULATION The polyolefin insulating m
30、aterials used shall be such that the requirements of this specification will be met. The insulation shall be solid for Type A or F cables and cellular, with or without a solid dielectric skin, for Type CF cables. The solid dielectric skin over the cellular insulation may or may not be the same polym
31、er as the cellular material. All conductors in each reel of cable shall have the same type of insulation. The manufacturer shall notify the customer as to which insulation material will be used. Insulating materials for cellular insulation may have a blowing agent added to the base resin. Base resin
32、s which may be used include: a) Natural crystalline propylene/ethylene copolymer conforming to the raw material requirements for Type II - 34000-D, per ASTM D 2146. b) Natural high-density polyethylene conforming to the raw material requirements for Type III, Class A, Category 4 or 5, Grade E9, per
33、ASTM D 1248. c) Natural medium-density polyethylene conforming to the raw material requirements for Type II, Class A, Category 4 or 5, Grade E4, per ASTM D 1248. 2.2.2 Colored polyethylene and colored crystalline propylenelethylene copolymer insulating grade materials removed from or tested on the i
34、nsulated conductor removed from the finished cable shall meet the performance requirements of Paragraph 5.4.1. 2.2.3 Repairs to the conductor insulation during manufacture are permissible. The repaired insulated conductor shall be capable of meeting the electrical requirements of Sub-section 5.1. -4
35、- ICEA S-56-434 83 7007034 OOOOYYb 702 = 2.3 COLOR CODE OF PAIRS 2.3.1 The colors of insulated conductors supplied in accordance with this Standard are specified in terms of the Munsell Color System (ASTM D 1535) and shall comply with the requirements of EIA Standard RS-359 (ANSI C83.1) except as ot
36、herwise specified below. 2.3.1.1 Except as otherwise noted, the “Table of Extended Limit Chips“ defined in Appendix C shall be used. 2.3.1.2 For chromatic colors, there is no V+ (light) limit for yellow, and there is no C+ limit for any color except brown. In these cases, any color above the minimum
37、 limit is acceptable if all other requirements are met. 2.3.1.3 For neutral colors, there is no V+ (light) limit for white and no V- (dark) limit for black. 2.3.1.4 For neutral colors, chromaticity deviations from the neutral centroid may be in any hue direction. Limits of deviation are specified fo
38、r a series of hues surrounding the neutral centroid at specific chroma levels. (A visual color standard meeting these requirements may be obtained from the Munsell Color Company, Inc., 2441 North Calvert Street, Baltimore, Maryland 21218.) -5- 2.3.2 ICEA S-56-434 83 m 9007034 0000447 849 m The insul
39、ated conductors shall be color coded in accordance with Table 3. Table 3 Color Code for Pairs of Insulated Conductors Pair Number 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Tip Conduct or White (W) White (W) White (W) White (W) White (W) Red (R) Red (R) Red (R) Red (R) Red (R) Black (BK
40、) Black (BK) Black (BK) Black (BK) Black (BK) Yellow (Y) Yellow (Y) Yellow (Y) Yellow (Y) Yellow (Y) Violet (V) Violet (V) Violet (V) Violet (V) Violet (V) Ring Conduc tor Blue (BL) Orange (O) Green (G) Brown (BR) Slate (S) Blue (BL) Orange (O) Green (G) Brown (BR) Slate (S) Blue (BL) Orange (O) Gre
41、en (G) Brown (BR) Slate (S) Blue (BL) Orange (O) Green (G) Brown (BR) Slate (S) Blue (BL) Orange (O) Green (G) Brown (BR) Slate (S) 2.3.3 In cables having more than 25 pairs, the pair color code of Table 3 shall be repeated and each group of 25 pairs shall be distinguished by colored binders in acco
42、rdance with Paragraph 2.5.4. 2.4 FORMING OF PAIRS 2.4.1 The insulated conductors shall be twisted into pairs. 2.4.2 The length of pair twists shall be designed to enable the cable to meet the electrical requirements specified in Sub-section 5.1. - 6- ICEA S-5b-Li34 83 m 90070It4 0000448 785 D 2.4.3
43、The average twist length of any pair in the finished cable shall not exceed 6 inches (150 mm). 2.5 FORMING OF CORE 2.5.1 In cables having 25 pairs or less, the twisted pairs shall be assembled in layers to form a substantially cylindrical core. Adjacent layers may be cabled in the same direction or
44、in opposite directions. Cables having 25 pairs or less may also be composed of subgroups in lieu of the concentric layer construction. 2.5.2 In cables having more than 25 pairs, the twisted pairs shall be grouped, each group being bound by non-hygroscopic and non- wicking threads or tape. Each group
45、 shall contain not more than 25 pairs, excluding spare or service pairs. When desired for lay-up reasons, the basic 25-pair groups may be divided into two or more subgroups called units. Each unit in a particular 25-pair group shall be bound with binder threads or binder tapes of the colors indicate
46、d in Table 4 for its particular 25-pair group. The pair count shall be consecutive from 1 to 25 as given in Table 3 through the units in a group. 2.5.3 The binders may be threads or tapes and shall be colored to indicate the sequence of groups for pair identification. Binders shall be applied with a
47、 lay length of not more than 4 inches (100 mm) . 2.5.4 The colors of the binders and their significance with respect to pair count shall be as shown in Table 4. Each color shall be readily recognizable as the basic intended color and shall be distinguishable from all the other colors. -7- ICEA S-5b-
48、Li34 83 9007034 0000447 611 D Iroup No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Table 4 Color Coding of Group Binders Color of Binders* Whit e -B lu e White-Orange White-Green Whit e-Brown White-Slate Red -B lue Red-Orange Red-Green Red-Brown Red-Slate Black-Blue Black-Orange
49、B lack-Green B lack-Brown Black-Slate Yellow-Blue Yellow-Orange Yellow-Green Yellow-Brown Yellow-Slate Violet-B lue Violet-Orange Violet-Green Violet-Brown Abb r evi a t ions W-BL w-o W-G W-BR w- s R-BL R-O R-G R-BR R-S BK-BL BK-O BK-G BK-BR BK- S Y-BL Y-o Y-G Y-BR Y-s V-BL v-o V-G V-BR Group Pair Count 1-25 26-50 51-75 76-100 101- 125 126-150 151-175 176-200 201-225 226-250 25 1-275 276-300 301-325 326-350 351-375 3 7 6-400 401-425 426-450 451-475 476-500 Sol-525 526-550 55 1-575 576-600 * Use of the white binder in cables of 100 pair or l
