1、NEMA Standards PublicationNational Electrical Manufacturers AssociationANSI C119.6-2011Electric Connectors Non-Sealed, Multiport Connector Systems Rated 600 Volts or Less for Aluminum and Copper ConductorsANSI C119.6-2011 3 ANSI C119.6-2011 American National Standard For Electric Connectors Non-Seal
2、ed, Multiport Connector Systems Rated 600 Volts or Less for Aluminum and Copper Conductors Secretariat: National Electrical Manufacturers Association Approved May 5, 2011 American National Standards Institute, Inc. ANSI C119.6-2011 NOTICE AND DISCLAIMER The information in this publication was consid
3、ered 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 document. ANSI standards and guid
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12、t. ANSI C119.6-2011 i AMERICAN NATIONAL STANDARD Approval of an American National Standard requires verification by ANSI that the requirements for due process, consensus, and other criteria for approval have been met by the standards developer. Consensus is established when, in the judgment of the A
13、NSI Board of Standards Review, substantial agreement has been reached by directly and materially affected interests. Substantial agreement means much more than a simple majority, but not necessarily unanimity. Consensus requires that all views and objections be considered, and that a concerted effor
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15、ing to the standards. The American National Standards Institute does not develop standards and will in no circumstances give an interpretation of any American National Standard. Moreover, no person shall have the right or authority to issue an interpretation of an American National Standard in the n
16、ame of the American National Standards Institute. Requests for interpretations should be addressed to the secretariat or sponsor whose name appears on the title page of this standard. Caution Notice: This American National Standard may be revised or withdrawn at any time. The procedures of the Ameri
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18、 Electrical Manufacturers Association 1300 North 17th Street, Rosslyn, VA 22209 Copyright 2011 by National Electrical Manufacturers Association. All rights reserved including translation into other languages, reserved under the Universal Copyright Convention, the Berne Convention for the Protection
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20、I C119.6-2011 ii ANSI C119.6-2011 iii Contents Foreword . v 1 Scope and Purpose 1 1.1 Scope . 1 1.2 Purpose 1 2 Referenced Standards . 1 3 Definitions 1 4 Performance Requirements . 2 4.1 General 2 4.2 Mechanical Tests . 3 4.3 Electrical Tests 3 4.4 Reusability . 5 5 Sampling 6 5.1 General 6 5.2 Mec
21、hanical . 6 5.3 Electrical Tests 6 5.4 Reusability . 6 6 Test Methods . 6 6.1 General 6 6.2 Mechanical . 7 6.3 Electrical 8 6.4 Reusability . 12 7 Test Report 12 8 Marking. 13 9 Assembly Instructions 13 Annexes A Applicable Standards . 23 B Test Configurations 24 C Suggested Thermocouple Locations .
22、 31 D Heat Cycle Data Sheet. 32 Tables Table 1 Tensile Load, AWG Cable . 14 Table 2 Tensile Load, Metric Cable 14 Table 3 Tightening Torque 15 Table 4 Test Duration 15 Table 5 Resistance and Temperature Measurement Intervals . 16 Table 6 Length of Exposed Conductor . 16 Table 7 Conductor Lengths for
23、 Current Cycle Tests, AWG Sizes 17 Table 8 Conductor Lengths for Current Cycle Tests, Metric Sizes . 17 Table 9 Suggested Initial Test Current to Raise AWG Control Conductor Temperature 100C (212F) . 18 Table 10 Suggested Initial Test Current to Raise Metric Control Conductor Temperature 100C (212F)
24、.19 Table 11 Current Cycle Periods for AWG Control Conductors . 19 Table 12 Current Cycle Periods for Metric Control Conductors 20 ANSI C119.6-2011 iv Figures Figure 1 Heat Cycle Schematic 21 Figure 2 Copper System Stability Test . 22 ANSI C119.6-2011 v Foreword (This Foreword is not part of America
25、n National Standard C119.6-2011) This standard describes current cycle and mechanical tests used to establish performance characteristics of non-sealed, multiport distribution connectors used to join aluminum-to-aluminum, aluminum-to-copper, or copper-to-copper conductors. This revision has been reo
26、rganized to follow international formatting, and to improve the organization of information throughout the document when compared to the previous version. Substantive changes to the standard have been made in the C119.6-2011 version of the standard. A substantive change is one that directly and mate
27、rially affects performance of a product and which requires testing or retesting to meet the current edition of a standard. The substantive changes to the standard are: This version of the standard requires retesting the performance of a product if there have been substantive changes made to the prod
28、uct. This revision includes the addition of spreadsheet files in Annex D which can be used to collect current cycle test data, calculate connector stability, and generate graphs of the data and print the data to provide test results as part of the test report. The spreadsheets are provided to give t
29、est laboratories a standardized method to collect, calculate and report test data and prepare test reports. These spreadsheets were not part of earlier editions. This standard incorporates an alternate, accelerated current cycle test method, henceforth referred to as the current cycle submersion tes
30、t (CCST). The CCST method differs from the traditional current cycle test in that test conductors are rapidly cooled by immersion in chilled water at the beginning of the current-OFF cycle and requires fewer total current-ON and current-OFF cycles. The CCST method differs from the traditional curren
31、t cycle test (CCT) in that test connectors are rapidly cooled by immersion in chilled water at the beginning of the current-OFF cycle. Comparative testing has demonstrated that the CCST method will provide essentially the same performance test results as the traditional current cycle test (CCT) in f
32、ewer test cycles. The current cycle test remains the preferred test method recommended for qualification of a connector. The Subcommittee on Multiport Connectors of the Accredited Standards Committee on Connectors for Electric Utility applications, C119, in its constant review of the publication, co
33、ntinues to seek out the views of responsible users that will contribute to the development of better standards. Suggestions for improvement of this standard will be welcome. They should be sent to the National Electrical Manufacturers Association, 1300 North 17th Street, Suite 1752, Rosslyn, Virgini
34、a 22209. This standard was processed and approved for submittal to American National Standards Institute (ANSI) by the Accredited Standards Committee on Connectors for Electrical Utility Applications, C119. Committee approval of this standard does not necessarily imply that all committee members vot
35、ed for its approval. At the time the committee approved this standard, the ANSI ASC C119 Committee had the following members: Douglas Harms, Chairman Ronald Lai, Vice Chairman Paul Orr, Secretary Organization Represented: Aluminum Association Jean-Marie Asselin Electric Utility Industry Michael Dyer
36、 ANSI C119.6-2011 vi Warren Hadley Douglas Harms James Harris Harry Hayes Alan Kasanow Curt Schultz James Sprecher Gerald Wasielewski David West Michael Zaffina National Electrical Manufacturers Association Jason Bundren Scott Casler David Dembowski Barry Johnson Ronald Lai John Makal Colin McCullou
37、gh Greg Nienaber Wayne Quesnel Carl Tamm Carl Taylor James Zahnen Rural Utilities Service (RUS) Trung Hiu Tennessee Valley Authority Jeffrey Nelson Testing Laboratories Jake Killinger Chris Morton Craig Pon Paul Springer Giovanni Velazquez Other Peter Bowers Tip Goodwin Stanley Hodgin John Olenik Jo
38、e Renowden Allen Wilcox The C119.6 Subcommittee on Non-Sealed, Multiport Connector Systems Rated 600 Volts or Less for Aluminum and Copper Conductors, which developed the revisions of this standard, had the following members: Harry Hayes III, Chairman James Zahnen, Vice Chairman Paul Orr, Secretary
39、Peter Bowers Jason Bundren Scott Casler Michael Dyer ANSI C119.6-2011 vii Warren C. Hadley Douglas P. Harms Harry Hayes Trung Hiu Barry Johnson Alan Kasanow Jake Killinger Ronald Lai John Makal J.C. Mathieson Colin McCullough Richard Morin Greg T. Nienaber Wayne Quesnel Jesus Rodriguez Curt Schultz
40、Paul Springer Carl R. Tamm Carl Taylor Giovanni Velazquez Richard (Jeff) J. Waidelich Gerald Wasielewski David West Allen Wilcox Michael Zaffina James Zahnen ANSI C119.6-2011 viii 1 American National Standard ANSI C119.6-2011 For Electric Connectors Non-Sealed, Multiport Connector Systems Rated 600
41、Volts or Less for Aluminum and Copper Conductors 1 Scope and Purpose 1.1 Scope This standard covers non-sealed, multiport distribution connectors rated 600 volts or less used for making electrical connections between aluminum-to-aluminum, aluminum-to-copper, or copper-to-copper conductors for above
42、grade, electric utility applications. This standard establishes the electrical and mechanical test requirements for connectors used at normal operating temperatures not to exceed 90C (194F) and is not intended to recommend any other operating conditions. 1.2 Purpose The purpose of this standard is t
43、o give reasonable assurance to the user that connectors meeting the requirements of this standard will perform in a satisfactory manner, provided they have been properly selected for the intended application and are installed in accordance with the manufacturers recommendations. The service operatin
44、g conditions and the selection of the connector is the responsibility of the user. 2 Referenced Standards This standard is intended to be used in conjunction with the following standards. When a referenced standard is superseded by a revision approved by the American National Standards Institute, In
45、c., the referenced revision shall apply. ASTM E4-10 Standard Practices for Force Verification of Testing Machines IEEE 837-2002 Standard for Qualifying Permanent Connections Used in Substation Grounding 3 Definitions Bolted-type connector: A connector in which the contact between the conductor and t
46、he connector is made by pressure exerted by one or more clamping bolts. CCT (Current Cycle Test): Current cycle heating and cooling are done in air. CCST (Current Cycle Submersion Test): Current cycle heating is done in air and cooling is done using water submersion. Conductor: Conducting material u
47、sed as a carrier of electric current. Connector: A device joining two or more conductors for the purpose of providing a continuous electrical path. ANSI C119.6-2011 2 Connector Assembly: The connector and installed conductor(s). Connector Current Class: Nomenclature categorizing a connectors electri
48、cal performance by current cycle test duration. Class A (Heavy Duty)High current cycle test duration. Class B (Medium Duty)Moderate current cycle test duration. Class C (Light Duty)Low current cycle test duration. Input Conductor: Conductor on the supply side of the connector. Multiport Connector: A
49、 connector that joins two or more conductors with a third or plurality of connector points. Output Conductor: Conductor on the load side of the connector. Range-Taking Connector: Connector designed to accept multiple conductor sizes. Reusable: A connector assembly that may be disassembled and fully removed from service and installed again using the same components. Run Conductor (Main): A continuous conductor from which other conductors branch. Set Screw Connector: A connector in which the connecting force between the conductor and connector body is applied directly by a
