ICEA S-103-701-2011 RISER CABLES TECHNICAL REQUIREMENTS.pdf

1、 ICEA STANDARD FORRISER CABLES TECHNICAL REQUIREMENTS Approved by AMERICAN NATIONAL STANDARDS INSTITUTE January 17, 2012 Publication # ANSI/ICEA S-103-701-2011 2011 by INSULATED CABLE ENGINEERS ASSOCIATION, Inc.ANSI/ICEA S-103-701-2011 ANSI/ICEA S-103-701-2011 ICEA STANDARD FOR RISER CABLES TECHNICA

2、L REQUIREMENTSPublished By INSULATED CABLE ENGINEERS ASSOCIATION, INC.Post Office Box 1568 Carrollton, GA 30112, U.S.A. 2011 Approved July 20, 2011 by Insulated Cable Engineers Association, Inc. Approved January 17, 2012 by American National Standards Institute ANSI/ICEA S-103-701-2011 ii Copyrighte

3、d by the ICEA Contents may not be reproduced in any form ithout permission of the INSU A E CAB E ENGINEE S ASSOCIA ION, INC. Copies of this publication may be obtained from G OBA ENGINEE ING OCU EN S 15 Inverness ay East Engle ood, CO 80113-5776 USA elephone 800 85 -717 ANSI/ICEA S-103-701-2011 iii

4、NOTICE AND DISCLAIMER he information in this publication as considered technically sound by the consensus of persons engaged in the development and approval of the document at the time it as developed. Consensus does not necessarily mean that there is unanimous agreement among every person participa

5、ting in the development of this document. he Insulated Cable Engineers Association, Inc. ICEA standards and guideline publications, of hich the document contained herein is one, are developed through a voluntary consensus standards development process. his process brings together persons ho have an

6、interest in the topic covered by this publication. hile 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 udgments contain

7、ed in its standards and guideline publications. ICEA disclaims liability for personal in ury, property, or other damages of any nature hatsoever, hether special, indirect, conse uential, or compensatory, directly or indirectly resulting from the publication, use of, application, or reliance on this

8、document. ICEA disclaims and ma es no guaranty or arranty, expressed or implied, as to the accuracy or completeness of any information published herein, and disclaims and ma es no arranty that the information in this document ill fulfill any of your particular purposes or needs. ICEA does not undert

9、a e to guarantee the performance of any individual manufacturer or seller s products or services by virtue of this standard or guide. In publishing and ma ing this document available, ICEA is not underta ing to render professional or other services for or on behalf of any person or entity, nor is IC

10、EA underta ing to perform any duty o ed by any person or entity to someone else. Anyone using this document should rely on his or her o n independent udgment or, as appropriate, see the advice of a competent professional in determining the exercise of reasonable care in any given circumstances. Info

11、rmation and other standards on the topic covered by this publication may be available from other sources, hich the user may ish to consult for additional vie s or information not covered by this publication. ICEA has no po er, nor does it underta e to police or enforce compliance ith the contents of

12、 this document. ICEA does not certify, test, or inspect products, designs, or installations for safety or health purposes. Any certification or other statement of compliance ith any health or safety-related information in this document shall not be attributable to ICEA and is solely the responsibili

13、ty of the certifier or ma er of the statement. ANSI/ICEA S-103-701-2011 iv page intentionally left blan ANSI/ICEA S-103-701-2011 v FOREWORD ICEA Standards are published in the public interest and are intended to promote product uniformity and uality throughout the industry. Existence of an ICEA publ

14、ication does not in any respect preclude the manufacture or use of products not conforming to the Standard. he user of this Standard is cautioned to observe any applicable health or safety regulations and rules relative to the manufacture and use of ire made in conformity ith this Standard. his Stan

15、dard hereafter assumes that manufacture, testing, installation, and maintenance of ires defined by this Standard ill be performed only by properly trained personnel using suitable e uipment and employing appropriate safety precautions. uestions of interpretation of ICEA Standards can only be accepte

16、d in riting, and the reply shall be provided in riting. Suggestions for improvements in this Standard are elcome. uestions and suggestions shall be sent to Secretary Insulated Cable Engineers Association, Inc. Post Office Box 1568 Carrollton, GA 30112, U.S.A. United States of America Alternatively,

17、you can contact ICEA by utili ing the contact lin in the ICEA eb site his Standard as approved by ICEA on July 20, 2011. he members of the ICEA Communications Cable Section, or ing Group 701, ho participated in this pro ect, ere . . Ba er G. orna . Gould P. raley ANSI/ICEA S-103-701-2011 vi page in

18、tentionally left blan ANSI/ICEA S-103-701-2011 vii AB E O CON EN S CON EN S SEC ION PAGE 1. GENE A . 1 1.1 PU POSE . 1 1.2 SCOPE 1 1.3 OP IONS AN IN O A ION 1 1. UNI S AN O E ANCES 2 1.5 ES ING CON I IONS 2 1.6 E E ENCES 2 1.7 UA I ASSU ANCE 2 1.8 SA E CONSI E A IONS 3 1. INS A A ION P ECAU IONS 3 2

19、. CON UC O S 3 2.1 CON UC O PE . 3 2.2 CON UC O IA E E S 3 2.3 CON UC O E ONGA ION . 3 2. AC O JOIN S 3 3. CON UC O INSU A ION 3.1 INSU A ION A E IA 3.1.1 eavy etal ree Insulation aterial . 3.1.2 alogen or Nonhalogen Insulation aterial 3.2 INSU A ION I ENSIONS, CO O S, AN SP ICES . 3.2.1 imensions .

20、 3.2.2 Colors . 3.2.3 Splices 3.3 INSU A ION P SICA E UI E EN S . 5 3.3.1 Adhesion. 5 3.3.2 ensile Strength and Elongation 5 3.3.3 Compression 5 3.3. Cold Bend . 5 3.3.5 Shrin bac 5 3.3.6 eat Exposure Aging . 5 3.3.7 eavy etal Content 5 3.3.8 alogen Content . 5 ANSI/ICEA S-103-701-2011 viii AB E O C

21、ON EN S CON EN S SEC ION PAGE . CO E CONS UC ION . 5 .1 IS ENG AN CO O CO ING O PAI E CON UC O S . 5 .1.1 Pairs . 5 .1.2 Pair Identification 5 .2 ASSE B O PAI E CON UC O S 6 .2.1 Core ayup . 6 .2.2 irror Image . 7 .3 SPA E PAI S . 8 .3.1 Use . 8 .3.2 uantity 8 .3.3 Placement. 8 . BIN E S . .5 CO E A

22、P 5. S IE S . 5.1 A E IA . 5.2 S IE APP ICA ION . 5.3 S IE SP ICES 6. JAC E . 6.1 JAC E A E IA 6.1.1 eavy etal ree Jac et aterial 6.2 JAC E IC NESS . 10 6.3 CO P E E CAB E JAC E E UI E EN S . 10 6.3.1 ensile Strength . 10 6.3.2 Elongation . 10 6.3.3 eat Exposure Aging . 10 6. JAC E CO O . 10 7. E EC

23、 ICA E UI E EN S . 10 7.1 E EC ICA C ASSI ICA IONS 10 7.2 EASU E EN P ECAU ION 10 7.3 C ESIS ANCE 10 7. C ESIS ANCE UNBA ANCE . 11 7.5 U UA CAPACI ANCE . 11 7.6 PAI - O-PAI CAPACI ANCE UNBA ANCE . 11 7.7 PAI - O-G OUN CAPACI ANCE UNBA ANCE 11 ANSI/ICEA S-103-701-2011 ix AB E O CON EN S CON EN S SEC

24、ION PAGE 7.8 A ENUA ION . 11 7. NEA EN C OSS A . 12 7. .1 Po er Sum NE 12 7. .2 Subgroups 13 7.10 A EN C OSS A 13 7.10.1. Po er Sum E E . 13 7.10.2 Subgroups 1 7.11 C A A E IS IC I PE ANCE 1 7.12 S UC U A E U N OSS S 1 7.13 P ASE E A 1 7.1 P ASE E A S E 15 7.15 INSU A ION ESIS ANCE . 15 7.16 CON UC

25、O - O-CON UC O C P OO ES . 15 7.17 CO E- O-S IE C P OO ES 15 7.18 AC EA AGE ES 15 7.1 CON INUI O E A IC CAB E E E EN S . 15 8. EC ANICA E UI E EN S 15 8.1 I E AN CAB E BEN ES . 15 8.2 JAC E BON ING ES . 15 8.3 CAB E PU ING ENSION 15 8. A ABI I . 15 8.5 I I E S O E . 16 8.6 NA IONA (/(&75,&$/&2( . 16

26、 . GENE A E UI E EN S 16 .1 I EN I ICA ION AN A ING 16 .1.1 ethod of Identification . 16 .1.2 ength ar ing 16 .2 JAC E IN A ING U ABI I 17 ANSI/ICEA S-103-701-2011 x AB ES AN IGU E able 2-1 Conductor iameters 3 able 3-1 eavy etal ree Insulation . able 3-2 Insulation Color able -1 Pair Color Code 6 a

27、ble -2 Unit Binder Color Code . 7 able -3 ull Count Color Coding of Superunit Binders 7 able - irror Image ayer Color Code 8 able -5 Spare Pair Color Code . 8 able 6-1 eavy etal ree Jac et aterial able 7-1 aximum C esistance . 11 able 7-2 utual Capacitance 11 abl3 7-3 Pair- o-Ground Capacitance Unba

28、lance . 11 able 7- Attenuation Constants 12 able 7-5 aximum Attenuation . 12 able 7-6 Po er Sum Near End Crosstal . 13 able 7-7 Po er Sum E ual evel ar End Crosstal 1 able 7-8 Structural eturn oss 1 able 1 Specifications eferenced in his Standard. 18 igu re A -1 ic ing est Configuration 21 APPEN ICE

29、S Appendix A est Procedure for ic ing and ygroscopicity . 20 Appendix B etallic ape Splice Brea ing Strength, Percent etention . 22 Appendix C urability est of In ar ings . 23 IN O A I E ANNE ES Annex A Product Guide A-1 Annex B ICEA elecommunication Cable Standards . B-1 ANSI/ICEA S-103-701-2011 xi

30、 ACRONYMS, ABBREVIATIONS AND SYMBOLS ANSI American National Standards Association AS American Society for esting and aterials A G American ire Gauge Attenuation C egrees of emperature, Celsius scale C G U isting designation for General Purpose Communication Cable C U isting designation for iser Comm

31、unication Cable degrees symbol, temperature or angle dc irect current db decibel O iameter over dielectric EIA Electronics Industry Association E E E ual evel ar End Crosstal EPA Environmental Protection Agency egrees of emperature, ahrenheit scale CC ederal Communications Commission f fre uency E a

32、r End Crosstal ft foot or feet ederal egister g gramICEA Insulated Cable Engineers Association IEC International Electro Commission in inch in2 Inches s uared IO E Input/Output ar End Crosstal ISO International Standards Organi ation ilohert percent lbf pound of force S limited smo e egahert m meter

33、 m3cubic meter mA milliampere ml milliliter mm millimeter Pa megapascal N Ne ton nf nanofarad N PA National ire Protection Association NEC National Electrical Code NE Near End Crosstal ANSI/ICEA S-103-701-2011 xii ACRONYMS, ABBREVIATIONS AND SYMBOLS -continued ns nanosecond o ounce PS E E Po er Sum

34、E ual evel ar End Crosstal PS NE Po er Sum Near End Crosstal pf picofarad ph potential of hydrogen ppm part per million psi pounds per s uare inch uES uality Excellence for Suppliers of elecommunications rms root mean s uared S Structural eturn oss C P oxicity Characteristics eaching Procedure S mic

35、rosiemen U Under riters aboratories ANSI/ICEA S-103-701-2011 1 ICEA STANDARD FOR RISER CABLES TECHNICAL REQUIREMENTS SEC ION 1 GENE A 1.1 PU POSE he purpose of this Standard is to establish generic technical re uirements that may be referenced by individual telecommunications cable specifications co

36、vering products intended for normal indoor premises use in the iring systems of communications users. he parameters covered provide material, construction, and performance re uirements. Because this Standard does not cover all details of individual cable design, it cannot be used as a single documen

37、t for procurement of product. his Standard is intended for use in con unction ith an individual product specification that provides complete design details for the specific cable type and designates the applicable performance re uirements. Such individual cable specifications may be prepared either

38、by the user or the manufacturer. he specification designated for procurement is at the option of the user. 1.2 SCOPE his Standard covers mechanical, electrical and flammability re uirements for riser cables. epending upon the application and system re uirements, this Standard provides choices for ma

39、terials and transmission characteristics. or those characteristics here no differentiation is made, the performance re uirements are applicable to all cables. Selection of the applicable type shall be at the discretion of the user and shall be designated in the product specification. 1.3 OP IONS AN

40、IN O A ION his Standard is arranged in Sections covering specific areas of cable re uirements and may be referenced as complete Sections or as individual paragraphs. iser cables are suitable for runs in vertical shafts of multi-story buildings. he typical cable construction is individually unshielde

41、d t isted pair of thermoplastic insulated copper conductors, ith an overall 8-mil bonded aluminum shield and thermoplastic ac et. Such cables are typically available in pair counts from 25-3600. hese cables are intended for voice, text, data, video, and image transmission and are categori ed by elec

42、trical transmission characteristics based on existing system re uirements and pro ected application needs. istorically, iser cable transmission performance has been similar to Outside Plant re uirements. Optionally, Category 3 performance may be chosen, and must be clearly mar ed. his Standard cover

43、s the minimum transmission performance re uirements for the follo ing classes of cable Class A Intended for basic voice, text and data transmission ith transmission characteristics specified to support 1 carrier transmission. hese cables are referred to as A x , here x designates the conductor si e

44、for 26 A G, for 2 A G and A for 22 A G. Class B Intended for voice, text, data, video and image transmission ith transmission characteristics specified for fre uencies up to 16 . hese cables meet all re uirements of a Category 3 cable. ANSI/ICEA S-103-701-2011 2 Paragraphs of this Standard here the

45、user may specify a particular option are listed belo 2.1 Conductor ype 3.1.1 eavy etal ree Insulation 3.1.2 alogen or nonhalogen insulation .2.1, .2.2 Core Construction 6.1.1 eavy etal ree Jac et6. Jac et Color 7.1 Electrical Classifications 8. lammability8.5. imited Smo e .1.2 ength ar ingTo assist

46、 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 utilized. 1. UNI S AN O E ANCES hroughout this Standard, the primary unit of measure is indicated first

47、and these values must be used for determination of product conformance. Parenthetical conversions are approximate and are provided for information only. Unless other ise specified, the rounding-off method of AS E 2 shall be used for determining measurement tolerances. 1.5 ES ING CON I IONS Unless ot

48、her ise specified in the individual test re uirements, testing shall be conducted at 23 3 C 73 5 . 1.6 E E ENCES All documents referenced herein shall be as listed in able 1 ith issues and/or dates as indicated. 1.7 UA I ASSU ANCE It is the responsibility of the manufacturer to establish a uality as

49、surance system consistent ith ISO 001, - 000, or an alternate system acceptable to the user. hen the user re uires a specific uality assurance program and/or special testing procedures, agreement bet een the user and the manufacturer should be reached before the order is placed. e uirements shall be met on every length of completed cable as assured by uality control methods or by 100 testing. he term complete