ML20215N370

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Rev 8 to Mod & Additions Instruction M&AI-7, Cable Terminations,Splicing & Repairing of Damaged Cables
ML20215N370
Person / Time
Site: Sequoyah  Tennessee Valley Authority icon.png
Issue date: 07/24/1986
From: Cowna L, Nobles L, Stockton R
TENNESSEE VALLEY AUTHORITY
To:
Shared Package
ML20215N324 List:
References
M&AI-7, NUDOCS 8611050298
Download: ML20215N370 (82)


Text

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9 TENNESSEE VALLEY AUTHORITY SEQUOYAH NUCLEAR PLANT MODIFICATION AND ADDITIONS INSTRUCTION M&AI-7 CABLE TERMINATIONS, SPLICING, AND REPAIRING OF DAMAGED CABLES Revision. 8 I

PREPARED BY: Lynn Cowan RESPONSIBLE SECTION: Electrical Modifications REVISED BY: .Batry A. Kimsey .

s SUBMITTED BY: h R Respo M e Section Supervisor PORC REVIEW DATE: JUL 24 886 APPROVED BY: O

, Plant Manager DATE APPROVED: UL 2 4 M86 l

Reason for revision (include all Instruction Change Form Nos.):

Revised to update SNP cable terminations, splicing, and

_ repairing of damaged cables to G38 quidelines. - . - . .

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, The last page of this instruction is number: 78

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8611050298 861031 PDR ADOCK 05000327 P PDR  ;

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SEQUOYAH NUCLEAR PLANT PLANT INSTRUCTION REVISION LOG MODIFICATIONS AND ADDITIONS INSTRUCTION M&AI-7 REVISION Date Pages LL7EL Approved Affected REASON FOR REVISION (INCLUDE CGMMIT-MENTS AND ALL ICF FORM NUMBERS) 0 11/08/79 All 1,2,18, "

19,46-48, Added 50-56, Title 1 03/04/80 Change 2 11/20/81 49,55,56

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3 02/02/82 4 4 12/03/82 18 1,3,4,46- -

56,Added

_5 09/14/84 57,58 Change,

_6 08/07/85 All 7 02/05/86 54-60 Revised in accordance with ICF 85-1675,~

PORC approved 12/21/85.

Revised to update SNP cable termina-8 JUL 24 G86 All tions, splicing, and repairing of damaged cables to G38 quidelines. . _ _ _ _ _ _

0895L/mbs 9-

SQNP M&AI-7 Page 1 of 45 Revision 8 M&AI-7 CABLE TERMINATIONS, SPLICING AND. REPAIRING OF DAMAGED CABLES 1.0 GENERAL INDEX AND INFORMATION 1.1 Objective

[ 1.2 Standard Drawings, Design Guides, and Design Standards

1.3 Responsibilities

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} 1.3.1 Cognizant Engineer 1.3.2 Foreman 1.3.3 QC Inspector s 1.4 Termination / Splice / Repair Calculations and Sketches.

2.0 MATERIALS.

2.1 Insulated Cables 2.2 Cable Accessories 2.2.1 Terminals and Butt Splices

,, 2.2.2 Medium-Voltage (5-15kV) Splicing and Terminating Kits 2.2.3 Insulating requirements for splices and terminations in low voltage (600V and below) applications l

2.2.3.1 Preinsulated splices and terminals 2.2.3.2 Uninsulated butt splices

, 2.2.3.3 Uninsulated terminal luggs 2.2.4 Lighting system branch circuit terminations and splices 2.2.5 Tools for wire preparation I

2.2.6 Cable ties 2.2.7 Identification tags and markers

~ 3.0 INSTALLATION 3.1 Terminating and splicing

_ 3.1.1 General instructions 3.1.2 Thermoplastic or thermosetting-type insulation-terminations (600V or less) k

s SQNP M&AI-7 Page 2 of 45 Revision 8 3.0 INSTALLATION (.untinued) 3.1.3 Thermoplastic or thermosetting-type insulation-terminations (5-15kV)

NOTE: Effective August 07,1985: Instructions or procedures referencing M&AI-12 Cable Terminations'will be done in accordance with this procedure since at this date the procedures of M&AI-7 and -12 were combined into this one.

No temporary changes to workplans or replanning of WR/MR's will be necessary.

t 3.1.4 - Rubber or rubber-like insulations-terminations (600V or less) 3.1.5 Signal terminations 3.1.6 . General. guidelines for splicing 3.1.7 Thermoplastic or thermosetting-type insulation-splicing (600V or less) .

3.1.8 Thermoplastic or thermosetting-type insulating-splicing (5-15kV) 3.1.9 Rubber or rubber-life insulation- plicing (600V or.less) 3.1.10 Coaxial and/or triaxial cable splicing 3.2 Minimum Bending Radius 3.2.1 General Information 3.2.2 Calculations and Requirements 4.0 SOLDERING CRITERIA FOR INSTALLATION AND INSPECTION 4.1 General Instructions 5.0 INSPECTION CRITERIA 0F CABLE OR INTERNAL PANEL WIRING TERMINATION / SPLICES 6.0 REPAIRING DAMAGED CABLES .

6.1 General Instructions 6.2 Cables having thermoplastic, thermosetting, rubber, or rubber-like Jackets and insulations 6.2.1 General requirements 6.2.2 Jacket repairs

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M&AI-7 Page 3 of 45 Revision'8 r

6.0 REPAIRING DAMAGED CABLES (continued) 6.2.3 Shield repairs ,

6.2.4 Insulation repairs I 6.2.5 Cables having braided type coverings over the insulation 7 .' O INTRODUCTION TO RAYCHEM HEAT SHRINKABLE PRODUCTS 1

i 7.1 Selection to tubing and/or components 7.1.1 General requirements 7.1.2 Tubing application range 7.1.3 Cable preparation 7.1.4 Installation technique 7.2 Inspection of installation and acceptance criteria APPENDIX A - Thomas and Betts Company terminals, splices, and r tools for Sequoyah APPENDIX B - Table B-1 (Terminals, butt splices, and tools available from Thomas and Betts) s Table B-2 (Terminals, butt splices, and tools available from AMF Product Corporation) l" Table B-3 (Terminals, butt splices, and tools available from Burndy Corporation)

APPENDIX C - General information for AMP, Burndy, T&B tools,

, terminals, butt splices, pins, and sockets and .

inspection - acceptance criteria P

APPENDIX D - Incore thermocouple connector assembly instructions ,

and thermocouple wiring' information ATTACHMENT I - SD-E15.3.4 Cable, wire, and terminal block

- identification requirements ATTACHMENT II - Electrical Standard Drawings for splicing and cable terminations

- ATTACHMENT III - Cable Termination / Splice Data Sheet; Internal i Wiring Changes Data Sheet; Cable Repair Data Sheet s'~o ATTACHMENT IV - Termination / splicing reference figures ,

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REFERENCES:

1. G-38 General Construction Specification for installing insulated

_ cables' rated up to 15,000 volts.

I 2. Raychem" corporation; WCSF-N heavy. wall, flame-retarded nuclear cables sleeves product installation and inspection guide, (March 1985).

3. Raychem corporation; WCSF-N In-Line Splice application guide, revision 1, (August 1983).

r 4. Amp products corp.; standard products catalog, third edition, catalog 2005-8 i (August 1983).

5. Amp products corp. ; nuclear terminals and splices, product bulletin 404840-2 (1981)
o. Thomas and Betts Corporation; connectors for Cooper and Aluminum Cable, Catalhg 300.1, (July 1983).

. 7. Burndy Corporation; The connector selector catalog.

I E. Burndy Corporation; Trim Trio Interconnection System, Catalog CG-116, (1979).

r 9. IEEE standard 690-1984; IEEE st..ndard for the design and installation ~of

' , .' ' cable systems for Class IE circuits in nuclear power generating stations (December.1984).

,I 1 10. ANSI /IEEE_ standard 336-1985; IEEE standard installation, inspection, and

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test 1ng requirements for power, instrumentation, and control equipment at nuclear facilities (April 1985).

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11. Memorandum from R. W. Cantrell to Charles Bonine concerning specification
k. revision notice SRN-G-38-3 (EEB 840612 902).
12. Brand seiWire and Cable Engineering Guide Publication WC-73.

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  • 1.1 OBJECTIVE The objective of this procedure is to provide guidelines for the following:

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a. Specification of materials used in cable terminations and

/, splicing.

b. Installation and inspection instructions for terminating and

_ splicing insulated cables up to 15,000 Volts (including 7 continuity and insulation testing).

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  • SQNP f M&AI-7 Page 5 of 45 Revision 8 r

-q 1.1 OBJECTIVE (continued) 6

c. Requirements pertaining to repairing a cable having a damaged jacket, shield, insulation and/or conductor (s).

It is supplemented by special instructions given on design drawings p of the respective Division of Engineering Design (EN DES) and/or special instructions approved via 13 DES and NUC PR per vorkplan (WP) 6 -

documents and AI-19. This procedure applies to any field modifi-cation, maintenance, or original installation of vendor-wired equipment that 'is required by design drawings.

1.2 STANDARD DRAWINGS, DESIGN GUIDES, AND DESIGN STANDARDS All work shall be done as specified here in or as otherwise indicated on the respective EN DES design project's detailed design drawings, the standard drawings, design guides, and design standards. The following list consists of a selected few of the design standants 3 and standard drawings associated with cable terminations and splicing which are included in Attachment II of this procedure. For other related Design Guides, Standards, and Design Standard drawings it is recommended to reference either Office of Engineering (OE) Electrical Standard drawings or Design Guides as needed for special cases and/or

  • coordinate with OE. The latest revision of these documents in effect at the time of installation shall be followed.

SD-E12.5.3 - CABLE - Splicing Medium Voltage (5-15KV) Insulated

, Conductors. 1 i

L SD-E12.5.4 - CABLE - Termination of Medium Voltage (5-15KV)

Insulated Cable.

I l~ SD-E12.5.5 CABLE - TERMINATION OF Meduim Voltage (5-15KV) Insulated and Cable to Equipment furnished with Pigtail.

r SD-E12.5.5-2 3 SD-E12.5.6 - CABLE - Splicing 600V (or less) Insulated Cable.

l SD-E12.5.7 CABLE - Termination of 600V (or less) Insulated Cable and to Equipment Furnished with Pigtail.

SD-E12.5.7-2 l i SD-E12.5.8 - CABLE - Splicing and Terminations 600V (or less) Multi- '

Conductor Insulated Cable. -

SD-E15.3.4 - RACEWAYS, CABLE AND WIRE IDENTIFICATION TAGS - SNP(Table A; FIG 1)

DS-E12.5.6 - CONNECTOR AND' FITTINGS - Shicided Cable Termination -

Ground Sensor Current Transformer Application.

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SQNP M&AI-7 Page.6 of 45

. Revision 8 P

'i 1.3 RESPONSIBI!ifIES 1.3.1 Cognizant Engineer The cognizant engineer shall be responsible for the following:

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1. Ensuring that the cable or wire is installed and identified' in accordance with the requirements of this procedure.
2. Providing the necessary calculations for cable terminations /

splices and providing guidance and resolution in conjunction with OE and /or EEB to problems not. clearly defined by this r procedure.for the field acd QC Inspectors. as necessary.

3. Initiating FCR's for required wiring or termination changes to approved TVA design drawings. Coordination of the FCR and approval of the FCR will be done per AI-19 Part IV.
4. Procuring or coordinating the purchase or tranfer of approved materials (refer to Section 2.0) associated to field installation of tenninations and splices. ,
5. Perfomance of inspections per approved WP/WR instructions and/or.on non CSSC terminations / splices / repairs in accord-si ance with this procedure.
6. Ensuring proper do'cumentation of terminations /splires/

repairs per this procedure including docummentation of l the location of splices on cable pull cards.

F 1.3.2 Electrical Foreman I. The Electrical Foreman shall be responsible for the following:

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1. Ensuring that the cable or wire is installed and identified

" in accordance with the requirements of this procedure.

and/or approved WP/WR instructions.

2. Coordinating with cognizant engineer on any problems or questions with requards to terminations / splices /repa:rs of cables or conductors or materials.
3. Performace of inspections per approved WP/WR instructions and/or on non-CSSC equipment in accordance witn this pro-cedure. .
4. Ensuring proper documentation of terminations / splices /

repairs per this procedure and approved WP/WR instructions is entered correctly in the original work package and/or data sheets.

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1 SQNP M&AI-7 Page 7 of 45 Revision 8 r-1.3 RESOPNSIBILITIES (continued)

NOTE: Prior to the performance of terminations / splices /

repairs of cables the field will ensure the cables and/or related equipment is deenergized per AI-3 as required and verify themselves using a volt ohameter or an equivalent method that the cables are safe to work on.

1.3.3 QC Inspector QC Inspectors shall be responsible for the following:

1. Inspections for all CSSC cable terminaitons/ splices /

repairs per applicable drawings and approved WP/WR instructions in accordance with this. procedure.

2. Completing s'ignoffs per approved WR/MR instructions and/or on applicable data sheet upon completion of inspections.
3. Coordinating with cognizant engineer problems ~ or questions concerning installation or materials used in terminating /

splicing / repair of cables or conductors.

1.4 TERMINATION / SPLICE / REPAIR CALCULATIONS AND SKETCHES FOR SPLICES / TERMINATIONS, OR REPAIRS OF CLASS 1E CABLES THAT DEVIATE FROM THE DESIGN STANDARD DRAWING REQUIREMENTS OR NOTES, SKETHCHES AND CALCULATIONS (FOR SIZING RAYCHEM COMPONENTS) SHALL BE REQUIRED DOCUMENTATION.

F j" For Class IE or non Class 1E terminations / splices that the cognizant engineer determines would require a detailed sketch for installation of Raychem products or taping' methods to facilitate ' field installation 1

the following information shall be provided to the field:

1. A sketch of the splice / termination showing materials to be used and the specifics of the splice / termination configuration

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including dimensions of individual pieces of Raychem sizes and lengths, and amount of sleeve overlaps.

2. For Raychem installations a list containing the calculations used to compute the sizes of materials used including (1) cable
  • and/or conductor outside diameters (2) calculations with regards

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to newly computed cable outside diameters for shims and/or .over-all sleeves.

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. M&AI-7 Page 8 of 45

, Revision 8 I

1.4- Terminatica/ Splice / Repair Calculations.and Sketches (continued) 3v These sketches will.also have a two party signoff for intial calculations done by and verified by for sizing of Raychem components and other related splice materials.

f~ NOTE: For splices / terminations that deviate from the design standard drawings requirements, the verification of 4

calculations and components selected will be verified

(, by OE and the sketch will be signed / dated-by OE.

't; Approiate documentation from the vendor may also be attached. . Sketches for Raychem Kits or'3M Splice Kits J' .c should not be necessar~y since vendor information is included with these kits.-

4. These sketches and calculations will be placed in Section a

i .X of the WP package or attached to the WR/MR package for-documentation purposes.

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2.0 -MATERIALS t '

- 2.1 Insulated Cables All class IE cables shall be purchased by the Office of Engineering (OE) unless design documents direct otherwise. Non Class.1E cable should be purchased.by OE but in all cases will be ccirdinated through them.

l g- Cognizant engineer will coordinate the purchase or transfer of cable 1 with OE as required.

2.2 Cable Accessories l,

. (,' These materials shall be purchased by the field. Cable accessories shall in all instances be suitable for use with the specific cable and i be compatible with'the environment in'which the cable is to be installed.

f The~ general requirements listed below shall govern the purchase of these. components.

2.2.1 Terminals and Butt Splices 2.2.1.1. Thomas and Betts Company, Amp-Product Corporation, and Burndy Corporation are currently' approved suppliers of terminal lugs and butt splices. Other suppliers may h- also be acceptable, but must likewise be approved by

, EN DES. With the following exceptions,- two-hole, i- I copper compression-type terminal lugs shall be used

, to terminate No. 2 AWG and larger ' size field installed.

cables and may be used on smaller size cables. One-hole compression type terminal lugs may be used if the cable size is~ smaller than No. 2 AWG and on larger j size cables when:

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SQNP

M&AI-7 Page 9 of 45 Revision 8 2.0 MATERIALS (continued) 2.2.1.1 (continued)
a. Space inside the termination compartment is not sufficient to permit the use of two-hole lugs,
b. Equipment is supplied with pigtails having vendor installed one-hole lugs,
c. Two-hole lugs are not available from the vendor, or d .' Vendor equipment is supplied with contacts intended c for use with one-hole lugs.

NOTE: At Sequoyah, generally, AMP terminal lugs and butt splices are used for wire size No.10 and smaller and Thomas and Betts f terminal lugs and butt splices are used' for wire sizes No. 8 AWG and larger.

- Terminal lugs and butt splices for conductor size No. 8 AWG and larger shall be of the uninsulated type. For conductor size No.

  • 10 AWG and smaller, terminal lugs and butt splices should be uninsulated in applications where the use of Raychem heat shrink-able sleeving is a requirement. In splicing applications where Raychem heat shrinkable sleeving is required to insulate the spliced connection or where acceptable for .use inside primary con-

,. tainment (see Section 2.2.3.1) only lugs and splices preinsulated with Tefzel or Kynar may be used. Outside primary containment, preinsulated lugs and splices may be vinyl, nylon, Tefzel, or Kynar.

Terminal lugs and butt splices shall be selected using

.i manufacturer data and installed with tooling approved by that manufacturer for use with his product. The tools shall contain f

die stops to prevent overcrimping and a rachet-type feature I

(where applicable) to prevent undercrimping. Guidelines for

- appropriate tool & die selections for various, wire sizes are 4

given in Appendix A and Tables B-1, B-2, and B-3 of Appendix B for terminal and butt splice accessories from Thomas & Betts, AMP Product Corp. ,' and Burndy Corp. , respectively.

NOTE: Solid conductors shall be lugged or spliced with AMP solistrand connectors unless otherwise noted on design drawings.

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SQNP M&AI-7 Page 10 of 45 Revision 8 2.0 MATERIALS (ce:Linued)

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2.2.l.2 To minimize output errors, selection of terminals and-

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butt splices for terminations at thermocouple extension wires shall be based upon the following:

/~ a. For iron-constantan and copper-constantan thermo-L couples, tin-plated copper terminal lugs and butt

" splice connections shall be used. However, to ensure that both legs remain at approximately the same temperature, the legs of the thermocouple shall be lashed together after insulating the

, terminations. This may be accomplished by the l

use of a cable tie, a short piece or heat shrinkable sleeving, or by taping. -(If the legs of the thermocouple do not remain at approximately the same temperature, an error may result in the output.)

b. For chromel-alumel thermocouples, chromet and aiumes terminal lugs and butt splice connectors are .

preferred and shall be installed with the arriopriate crimping tool. The chromel lug or connector shall

'be installed on the chromel extension wire and the alumel lug or connector on thelal' umel extension wi re.

(These types of material- tend to be brittle .mi acr subject to fracture. After installation, immediatety verify that the lug or connector has not been t ractured.)

Tin-plated copper terminal lugs and butt spiire connectors may also be used as long as both legs F of the thermocouple are lashed together after insulating the terminations as discussed in 2.2.1.2a above.

I 2.2.1.3 Use of fasteners (bolts, nuts, washers, etc.) wnich meet a specific ASTM specification or have a particular thread type or size to connect the conductors to the component is not required as long as the fasteners used will permit torquing, where applicable, as prescribed in M&AI-9.

All fasteners used on a particular termination shall ,

be of the same material and shall be compatinle with the material of the device terminals. This may oe accomplished, for example, by using brass fasteners on copper or copper-alloy terminals. Unless otherwise' prohibited or contrary to Food construction practices, the same connection may be made using steel fasteners which have been plated or suitably treated to be corrosion resistant.

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-2.0 MATERIALS (continued) 2.2.2 Medium-Voltage (5-15kV) Splicing and T'erminating Kit 2.2.2.1 Terminating Kits I, A package of material'(with instructions) that includes all necessary items, except for the i

. terminal lug, for cable termination.

For medium-voltage terminations, Raychem Corp. , cable insulation terminating kits of the proper voltage and type shall be required as shown on standard drawing

/. SD-E12.5.4 when connecting to bus bars, stub buses, or terminals.of medium-voltage equipment (such as switch-gear and transformers). For medium-voltage termi-nations to equipment furnished with pigtails (such as motors and generators), follow standard drawing SD-E12.5.5-1 or SD-E12.5.5-2, as applicable.

2.2.2.2 Splicing Kits A package of material (with instructions) that includes .

all necessary items, except for the splice-connector, for cable splicing. For medium-voltage splices, 1

3M Company insulation splicing kits of the proper voltage and type shall be required as shown on standard drawing SD-Ei2.5.3. Where waterproof splices are required.

Raychem Corporation WCSF type N heat shrinkable tuoing (see Sections 7.0 through 7.3)--or equal subject to OE approval-~shall be used.

NOTE: Raychem terminating kits and splicing kits installation instructions shall be followed, however, shims may be required to obtain proper installation use ranges and should be designated

by cognizant engineer via a sketch or other methods to ensure proper installation by field.

2.2.3 Insulating Requirements for Splices and Terminations in Low Voltage (600V and Below) Applications NOTE: For maintenance type purposes it is recommended that equipment which needs to be replaced or disconner'ed ,

on regularly scheduled maintenance intervals be terminated / spliced using ring tongue terminal lugs.

It should be noted that care should be used in sizing Raychem parts due to extra shims required to ga over the bolted connections and consideration to the size of enclosure housing the splice due to the increase in the size splice. Refer to Sections 2.2.3.1, 2.2.3.2 and 2.2.3.3.

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~ SQNP M&AI-7 Page 12 of 45 Revision 8 2.0 MATERIALS (continued) 2 2.3.1 Preinsulated Splices and Terminals Preinsulated splices and terminals should not be used for Class 1E cables inside primary containment and areas l

,. subject to high energy line breaks or flooding, unless located in conduit between conax connector and equipment (inboard side), or located in equipment. enclosure which is environmentally sealed from the external environment.

[~ However, if preinsulated splices or terminations are

]~ used for Class 1E and non-Class IE cables in these areas; they shall be insulated with an overall Raychem Type N I

,. heat shrinkable sleeve.

2.2.3.2 Uninsulated Butt Splices After installation, an uninsulated butt splice shall be insulated as specified on standard drawing SD-E12.5.6.

Splicing may also be accomplished by the use of - terminal lugs. When this option is used, the completed splice shall be insulated as specified on either standard drawing SD-E12.5.7-1 or. SD-E12.5.7-2.

2.2.3.3 Uninsulated Terminal Lugs For insulating requirements >ertaining to terminations-at equipment furnished with " cable pigtails," follow standard drawing SD-E12.5.7-1 or SD-E12.5. 7-2, as applicable.

2.2.4 Lighting System Branch Circuit Terminations and Splices One-piece, self-insulated, screw'on electrical connecto'rs in different sizes, UL approved for various wire combi-nations of 2 single-conductor No. 8 AWG and smaller -

shall be required for all splices and terminations.

No terminating materials shall be required for terminals having pressure connectors or connections of No. 10 AWG or smaller conductors to wiring devices or lighting fixtures having wire binding screws or studs and nuts having upturned lugs, or equivalent. .

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" SQNP M&AI-7 Page~13 of 45 Revision 8 2.0 MATERIALS (continued) 2.2.5 Tools for Wire Preparation

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-Wire strippers or electrician knives shall be used, at the i

p discretion of NUC PR at the respective plant to prepare the

. cable for its terminal or butt splice.

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a. For cables with wire sizes No. 24 through No.-10 AWG the following wire strippers are recommended:

(1)~ Thomas and Betts Company catalog No. ABMK-1 for

, p wire sizes No. 24.to No. 12 AWG and catalog no.

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, ABMX-3 for wire sizes No. 18 to No. 10 AWG.

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(2) Ideal Industries, Incorporated, Stripmaster model 45 ... series for wire sizes No. 22 to No. 10 AWG.

b. For cables with wire sizes No. 8 AWG or larger, electri-j ~

cian or skinning knives, Klein, or equivalent, are recommended.

2.2.6 Cable Ties Cable ties shall be of the self-locking type. Those for use within the primary containment shall be either:

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a. Stainless steel as manufactured by AMP Special Industries, or-equivalent, or J

j b. Tefzel (ETFE fluropolymer) with a locking device as available from Thomas and Betts Company or equivalent.

{; , , Cables ties for general plant use may be of nylon as manufactured by Thomas and Betts Company, AMP Special l Industries, Panduit Corporation, ALL-STATE, Dennison 4

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(South Eastern Associates, Inc.), or equivalent.

! Stainless steel or Tefzel cable ties may also be used in general plant areas.

2.2.7 For identification purposes terminal marker strips shall be used when terminal blocks are made to have terminal marner strips attached unless otherwise noted on design drawings. -

Field purchased terminal blocks should have terminal marker strips provided with them. Cable identification tags shall

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be used at all field cable terminations, splices, and repairs..

and elsewhere when required by OE or cognizant engineer.

Individual insulated conductors shall be tagged as required on j design documents unless color coding identification occurs on connection diagrams or system schematics.

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SQNP M&AI-7 Page 14 of 45 Revision 8 2.0 MATERIALS (cor. J nued)

Cable . tags shall be color coded to distinguish between the various divisions of. separations and marked as defined on design.

I drawings. For the color coding requirements and the materials e to be used for identification tags and terminal marker strips,-

follow standard drawing SD-E15.3.4, as applicable. See Attachment I.

For identification purposes terminal marker strips shall-be I used when terminal blocks are made to have terminal marker strips attached unless otherwise noted on design drawings.

1 g Field purchased terminal-blocks should have terminal marker

, strips provided with them.

3.0 INSTALLATION 3.1 Terminating and Splicing 3.1.1 General Instructions i

I 3.1.1.1

  • Cleanliness is of great importance in making any: splice-

' or termination. The electrician's hands should be clean, particularly when applying the tapes and/or Raychem, and every reasonable precaution should be taken to exclude dirt and moisture wh'le the work is in process.

In a hot environment, sweat bands around the elec-trician's wrists will tend to prevent perspiration from accumulating on the hands. Use of sweat bands is recommended.

NOTE: Terminating, splicing, or repairing of damaged cables methods which are dependent upon the type of environment (MILD or HARSH); field may refer-ence the 47E235 series to determine what areas-in the plant have been designated to be considered MILD or HARSH environments as necessary.

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3.1.1.2 Field to ensure that all equipment and crimp tools used in terminations ~and splices are done with cali-brated equipment in ~accordance with AI-31 prior to performance of work and that related CSSC tool numbers and calibration due dates are recorded on applicable ,

data sheets. This includes crimping tools, meggers, V0M's, torque wrenches and screwdrivers, etc. Also l

prior to performance of terminations and splices field '

to ensure related cables to be terminated or spliced are'(1) deenergized, (2) verify work will not adversely affect any operational circuits, (3) be aware of any energized circuits near their respective work area and exercise appropriate amount of caution, (4) verify all train / channel separation and identification requirements

. are adhered to per related design drawings. ,

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SQNP M&AI-7 Page 15 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.1.3 Enlarging holes axi terminal lugs or mismatching stud and terminal lug hole size is no longer permissible, unless terminal lugs with the proper size holes are not available from the vendor. Terminal lugs shall F

be selected with holes which are compatible with the size of fasteners or stud size required by the tenminals on the device. Requests for deviations from this policy should be submitted to OE for evaluation on a case-by-case basis. To minimize the corrosion potential due to the protective coating being removed when holes are enlarged, a liberal application of Thomas and Betts' Kopr-Shield (or equivalent) shall be applied to the mating surfaces and bolts of terminal lugs, or the terminal lug shall be retinned.

,- 3.1.1.4 Manufacturer's instructions are to be followed in the-installation of cable accessories, such as terminal lugs. Where initial crimping is questionable, recrimping of terminal lugs is acceptable (unless otherwise pro-hibited by the vendor of the lug) if the following conditions are met: ,

a. The orientation of the recrimp shall be the same as that of the original crimp.
b. The recrimping shall be done with a crimping tool which is properly calibrated.
c. Each recrimped terminal shall be compared with a sample which has been. installed with a properly calibrated tool. If the terminal lug installation compares favorable, then the recrimped terminal .

- lug is considered acceptable. LIf the comparison is unfavorable, then the recrimped terminal shall be cut off and a new terminal lug shall be installed.

3.1.1.5 Raychem type N heat shrinkable products shall be used to insulate all splices and terminations in harsh environments for Class IE category A and B equipment (Appendix E of NUREG 0588) and certain non-Class 1E equipment whose failure due to postulated environmenu.i conditions could prevent the satisfactory accomplishment

  • of safety functions by safety-related equipment [10CFR;n.

49(b) (2)]. This equipment is listed on the DME project's 10CRR50.49 list. -

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SQNP M&AI-7 Page 16 of 45 Revision 8 3.0 INSTALLATION (cantinued)

~ For category C equipment in harsh envirgnments and equip-ment in mild environments, Scotch 23,33 , and 70 tapes may be used unless the maximum non-accident (normal / abnormal) environmental conditins exceed the tape manufacturer's specified environmental limits listed below:

Scotch 3M Operating Relative Tapes Temp. Radiation Humidity

  1. 23 90'C 5 X 108 Rads 96%
  1. 33* 80'C 5 X 108 Rads 96%

,. #70 180'C 5 X 10s Rads 96%

Raychem Type WCSF-U and other commercial grade heat shrink- ,.

able material may be used for applications where tape use is acceptable. If the tape manufactureer's limits are exceeded, Raychem Type N materials shall be used. Raychem Type N heat shrinkable products may be used for all splices and termina-tions.

3.1.1.6 Field to ensure that drawings to be used for inspection

~

are TVA EN DES issued or TVA EN DES approved vendor drawings. On electrical items for which a TVA EN DES drawing is issued, this drawing shall be used for inspection purposes. If the "endor has contractual

' obligations to maintain and turnish TVA EN DES approved vendor drawings for a particular system or piece (s) of equipment, the approved vendor's drawings shall be used. However, when both the EN DES issued and the EN DES approved vendor's drawings are available, the EN DES issued drawings shall take precendence. Any discrepancies between the TVA EN DES issued or TVA EN DES approved vendor drawing (s) shall be corrected to agree via the means of an FCR which will be initiated by the cognizant engineer. Also the inspector shall record-the drawing (s) and the revision (s) used for the inspection on the appropriate data sheet (s).

It is generally accepted that a termination is the point

~

3.1.1.7 where the end of the wire is layed down or where it is connected to the end device (i.e. motors, solenoid valves, terminal blocks, etc.). Splices are normally

  • the point where cable or conductors form a union or junction (i.e. cable penetrations) and continue to the end device. However, it should be noted that terminations aay not necessarily only be accomplished via terminal lugs or splicing solely by butt splices and throughout this procedure terminal lugs and butt splices may both appear in the termination and splicing sections randomly.

O

0 SQNP M&AI-7

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Page 17 of 45

) <:

Revision 8

3.0 INSTALLATION (continued) 3.1.2 Thermoplastic or Thermosetting-Type Insulation-Terminations (600V or less)

Definition: Thermoplastics - Materials which soften when heated, and become firm on cooling-vinyl and' polyethylene are examples. Thermoplastics can be repeatedly reshaped by alternate heating

,. and cooling.

Thermosets - Materials which harden or set when heat is applied. The application of heat is called " curing." After curing these plastics cannotbereshapegandareinsolubleinmost solvents. Kapton Type F film is a typical example, ,Dupont Trademark.

3.1.2.1 Terminations of conductors shall generally be accom-plished by means of enclosed (ring or rectangular) tongue terminal lugs crimped :nto the wires by means of appropriate tools (see Section 2.2.1). Exceptions to

' this method are noted in Section 3.1.2.5. Where the terminal lug being used is furnished with a sight hole

' or open barrel, the strands of the conductor shall be visible beyond the crimp, but shall not extend beyond the barrel so as to interfere with the seating of the fastener. Exceptions to this method are noted in Section 3.1.2.5.

NOTE: Because of differences between tools and terminals of the listed manufacturers, it is important to i.

follow the manufacturer's instructions applicable to the specific installation being made. Terminals of a company shall always be installed with a tool purchased from or certified by that company to:-

) ensure a uniform pressure crimp.

3.1.2.2 Either uninsulated or preinsulated terminal lugs (see

' Section 2.2.1) may be installed in systems of 600V or less and wire sizes No. 10 AWG and smaller. Preinsu-lated terminals having a wire insulation grip shall be barrel of the terminal to give some protection against electrical faults and accidental contact with live terminals, or where mechanical stress from vibration

' or flexure at the point of application might be required.

.' Preinsulated terminals within the primary ' containment shall be either Tefzel (Thomas & Betts Company) or Kynar (AMP Special Industries). The vinyl or nylon preinsulated fittings are intended for applications where the total temperature of the conductor does not i

~ exceed 105 C (221 F).

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o-SQNP M&AI-7 Page 18 of 45 s

Revision 8

'3.0 INSTALLATION (continued) 2 3.1.2.4 (continued) 3.1.2.3 Termination of low voltage cables (600V or less) with 90 C or less insulation shall be accomplished in I

accordance with standard drawing SD-E12.5.7-1, SD-E12.5.7-2, or SD-E12.5.8 as applicable.

3.1.2.4 For special configurations, such as certain motor j'

connections when multi-conductor cable with 90 C

{, or less insulation is used to feed the motor, . vinyl

' plastic electrical tape may be used for insulating connections. Install uninsulated connector of appro-priate size (see Section 2.2.1) and build up'over exposed copper surfaces with 3M Company, Scotch 33+

, tape (temperature rating 105* C) to a thickness equal to the original insulation and jacket. See the following note.

4 NOTE: The afore mentioned configuration is acceptable for both Class 1E and non Class IE motors in .

mild environments above flood level.

l 3.1.2.5 Exceptions to the preferred method of terminating I

conductors as described in Section 3.1.2.1 are permissible in certain appl':ations. These appli-cations and associated alternative methods of splicing /'

terminating cables are described below. Where appli-

  • cable, torquing shall be accomplished in accordance with

- M&AI-9.

3 3.1.2.5.1 Communication Systems - Provided the conductor.

size is no larger than No.18 AWG, splicing and/or terminating may be accomplished as follows: by soldering when done in accordance with Section' 4.0; by use of studs or terminal blocks on devices with Section 4.0; by use of studs or terminal blocks on devices provided the conductor is coiled 4

a minimum of 180 degrees around the stud or screw of the terminal block; or, by use of any other industry accepted terminating method (such as quick connect and wire wrap terminals) provided the manu- .:

facturer's instructions are followed and appro-priate tooling is used.

s Liahtina Branch Circuits - Self-insulated

, 3.1.2.5.2 i

electrical connectors (such as hand twist wire nuts) as specified in Section 2.2.4

) may be used to terminate conductors in boxes.

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SQNP M&AI-7 Page 19 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.2.5.3 (continued) 3.1.2.5.3 Low Voltage (600V or less)/ Equipment Havina Solderless Pressure-Type Connectors - Termin-ation of-conductors at equipment of this type shall be accomplished by removing the insulation and fillers, as required, from the end of the conductor and inserting the conductor into the connector.

3.1.2.5.4 General Applications Involving Diodes, Resistors, Capacitors, and Similar Devices Havina Solid Conductor Leads - Terminating the leads from devices of this type may be accomplished in any one of the following ways:

(a) Soldering; (Note: For soldering procedure and acceptance criteria see Section 4.0);

(b) Soldering over a connection made in accord-ance with Section 3.1.2.1; (c) Colling the lead around a stud and using a flatwasher and nut; (d) Coiling the lead around a regular screw and using a flat washer (see note below); or (e) Colling the lead around a washer head screw.

NOTE: The washer may be omitted where two terminations are being made at the same point provided the second term-ination is by means of a terminal lug and the solid lead wire termination' is located underneath or behind the lug. The need for an insulating sleeve (see SD-E12.5.6) shall be determined by cognizant engineer based upon the possibility of a lead coming into contact with ground or another conductor. PVC tubing or .

commerical grade heat shrinkable tubing may be used in mild env4-ronments instead of Raychem (i.e.

auxiliary control room, auxiliary instrument room).

19

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1 SQNP M&AI-7 Page 20 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.2.5.5 Components Having Termination Compartments Too Small to Permit the Use of. Terminal Lugs (Such as certain types of Limit Switches) -

Termination of field cables shall be made by coiling the conductors a minimum of 180 degrees around the terminal screw or stud.

3.1.2.5.6 Components that captive screws in a temination point / strip (such as fire protection detector heads, etc.) Terminations of field cables shall be made by coiling the conductor a minimum of 180 degrees around the tensinal screw or stud. As an alternate, it is permissible to use the proper (dependent upon solid or stranded conductor) flanged spade terminal lug.

3.1.3- Thermoplastic or Thermosetting-Type Insulation-Termiaations (5-15kV) 3.1.3.1 Terminations of medium-voltage (5-15kV) power conductors shall be insulated with terminating kits as specified -

in Section 2.2.2.1 and installed in accordance with standard drawings SD-E12.5.4 and SD-E12.5.5-1 and -2, as applicable.

3.1.3.2 Cable shields, of medium-voltage (5-15kV) cabics, should be grounded at both the switchgear end and at the equip-ment end of the run with a minimum No. 10 AWG copper conductor (see Table 3.1.3) or equivalent flexible copper braid, unless design drawings specifically state otherwise.

3.1.3.3 All ground connections shall be made in such a way as to provide a permanent low-resistance bond, and precau-tions shall be taken to prevent corrosion of the con-nections and grounding wires. Raychem's Ground Clamp Accessory Kit (type GCA) is an acceptable method for connecting shields to ground. Select the appropriate size from Table 3.1.3 and follow the manufacturer's instructions:

3.1.3.4 If the needed dimension is not available, the following information is required for factory selection: .

, g (1) Conductor size, (2) The diameter over the insulation or insulation thickness, and (3) The type of semi-conducting layer (tape or extruded).

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SQNP M&AI-7 Page 21 of 45 Revision 8 3.0 . INSTALLATION (continued) 3.1.3.5 On long runs, shields shall be grounded at intermediate points in accordance with standard drawing SD-E12.5.3.

The locations of points of access, such as pull boxes, handholes, and manholes, will determine the interval.

In making the intermediate grounds, remove only an amount of the Jacket sufficient to permit connection of the ground lead to the shielding tape and then replace the-Jacket with Raychem heat shrinkable cable repair sleeve, using Raychem red adhesive tape type S-1024 or S-1119.

3.1.3.6 Shields of all conductors 1000 MCM or larger shall not be grounded at both ends. The design drawings will show the location of the grounds and of the shield insulating joints if the latter is required.

3.1.3.7 Where the shielded power cable is terminated through a ground sensor current transformer, the shield ground lead shall be installed in accordance with design standard DS-E12.5.6 in order that the current transformer senses only the phase currents and to avoid the ground. connections constituting a shorted turn in the current transformer primary.

TABLE 3.1.3 Cable Diameter Over Raychem Catalog Number Copper Tape Shield Terminations Splices (Inches) 24" Braid 60" Braid 36" Braid

.40 - 1.35 GCA-824 GCA-860 GCA-836 1.1 - 2.25 GCA-424 GCA-460 GCA-436 Table 3.1.3: Raychem Ground Claap Accessory Kits For connecting Medium Voltage Power Cable Shields To Gtound 3.1.4 Rubber or Rubber-like Insulations - Terminations (600V and less) 3.1.4.1 Unless otherwise noted on design drawings cables with rubber or rubber-like (i.c silicone) 1256C or more insulation in systems of 600V or less shall be terminated by one of the following procedures:

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SQNP M&AI-7 i Page 22 of 45 1 Revision 8 3.0 INSTALLATION (<-atinued) 3.1.4.1.1 In non-Class IE applications, install uninsulated terminal lugs of appropriate size (see Section 2.2.1) and build up over exposed copper surfaces with 3M Company, Scotch 70 tape (temperature rating of 180 C) to a thickness equal to the original insulation, and use Raychem WCSF-N material for jacket replacement. The use of Raychem's WCSF-N (reference Sections 7.0 I through 7.3) shall be used in Class lE termi-nations and as replacement for the jacket material.

In Class 1E applications, Raychem's WCSF-N sleeving shall be used and installed per appli-cable parts of standard drawings SD-E12.5.6, SD-E12.5.7-1, or SD-E12.5.7-2, design drawings, or approved WP instructions and/or sketches.

3.1.4.1.2 Install preinsulated terminal lugs (see Section 2.2.1) for wire size No.10 AWG and smaller.

Preinsulated terminals should be either Tefzel, Kynar, or equivalent nuclear grade material.

These terminal lugs are intended for applications where the total temperature of the conductor does not exceed 150 C (300 F) e.g., within primary containment. Terminal lugs for wire size No. 8

~

AWG and larger shall be installed in accordance with either 3.1.4.1.1 or as defined on design i drawings.

3.1.4.1.3 For splices in multiple-conductor cable, non-Class IE applications, splice and insulate the single conductors in accordance with 3.1.4.1.1. .Raychem WCSF-N (standard drawing SD-E12.5.8) shall be used as a replacement for the jacket material for the overall jacket. In Class 1E applications, Raychem WCSF-N materials shall be used and installed per standard drawing SD-E12.5.8 and/or approved WP sketches.

3.1.4.1.4 Permissible exceptions to the preferred method of terminating conductors are the same as those

  • given in Section 3.1.2.5 for conductors having thermoplastic or thermosetting-type insulation.

SQNP

~M&AI-7 Page 22 of 45 Revision 8 3.0 INSTALLATION (t .atinued) 3.1.4.1.1 In non-Class 1E applications, install uninsulated tenninal lugs of appropriate size -(see Section 2.2.1) and build up over exposed copper surfaces with 3M Company, Scotch 70,-tape (temperature rating of 180 C) to a thickness equal to the original insulation, and use Raychem WCSF-N material for jacket replacement. The use of Raychem's WCSF-N (reference Sections 7.0 I through 7.3) shall be used in Class 1E termi-nations and as replacement- for the jacket material.

In Class 1E applications, Raychem's WCSF-N sleeving shall be used and installed per appli-cable parts of standard drawings SD-E12.5.6, SD-E12.5.7-1, or SD-E12.5.7-2, design drawings, or approved WP instructions and/or sketches.

3.1.4.1.2 Install preinsulated terminal lugs (see Section 2.2.1) for wire size No. 10 AWG and smaller.

Preinsulated terminals should be either Tefzel, .

Kynar, or equivalent nuclear grade material.

These terminal lugs are intended for applications where the total temperature of the conductor does not exceed 150 C (300 F) e.g. , within primary containment. Terminal lugs for wire size No. 8

- AWG and larger shall be installed in accordance with either 3.1.4.1.1 or as defined on design k

drawings.

. 3.1.4.1.3 For splices in multiple-condu'ctor cable, non-Class

, 1E applications, splice and insulate the single conductors in accordance with 3.1.4.1.1. Raychem WCSF-N (standard drawing SD-E12.5.8) shall be used as a replacement for the jacket material for the overall Jacket. In Class 1E applications, Raychem WCSF-N materials shall be used and installed per standard drawing SD-E12.5.8 and/or approved WP sketches.

3.1.4.1.4 Permissible exceptions to the preferred method of terminating conductors are the same as those

  • given in Section 3.1.2.5 for conductors having thermoplastic or thermosetting-type insulation.

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SQNP M&AI-7 Page 23 of 45 Revision 8 3.0. INSTALLATION (continued) 3.1.4.1.5 Coaxial and/or Triaxial Terminations Coaxial and/or Triaxial cables shall be terminated with appropriate connectors specified by the instrumentation equipment contact, design drawings, and/or cognizant engineer.

The procedure used shall be in full compliance with the instructions furnished by the instrumentation equipment manufacturer and/or workplan. The terminations shall be made with appropriate tools and supplemental materials (such as solder and sleeving) furnished by the instru-

~l- mentation equipment manufacturer and/or field purchase request. For coaxial cables to be terminated on terminal blocks see 3.1.5.1.3.

3.1.5 Signal Terminations 3.1. 5 .1 Where multi-conductor signal cable is to be terminated in multi-pin connectors supplied with instrumentation equipment, the same procedure shall be followed as outlined in Section 3.1.4.1.5 for coaxial and/or triaxial terminations and/or the following:

3.1.5.1.1 NIS cables shall be installed in accordance with Westinghouse Instruction (refer to Contract 68C60-91934) " Control and Electrical Systems Standards,"

Section 4.1, " Nuclear Instrumentation System (NIS) cable, " Field Installation NIS Triaxial cables and Connectors.

NOTE: Use of a type WCSF type N Raychem sleeve is permissible for termination purposes.

3.1.5.1.2 Incore thermocouple cables shall be installed with Westinghouse Instruction " Control and Electrical Systems Standards," and Appendix D.

3.1.5.1.3 Annunciator and computer shielded cables insul-ation shall be stripped back as far as necessary to free the individual conductors for proper termination techniques per 3.1.4.1.2 or 3.1.2.2 as applicable. Case (1): If the shield is to be terminated, the shield is to be properly lugged, insulated (with PVC tubing or commetical grade

  • heat shrinkable tubing), and landed on the proper terminal per design and/or vendor drawings.

1

. /.- -

SQNP M&AI-7 Page 24 of 45 Revision 8 3.0 INSTALLATION ontinued) 3.1.5.1.3 (continued)

Case (2): If the shield is not to be terminated,

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it shall be cut off near to vnere insulation was stripped back per the

'- above and insulated. Inside containment or harsh environments a Raychem WCSF-N sleeve, .;r equivalent, shall be used to insulate the area where the shield and l' other conductors have the outer insula-tion and cable jacket removed for termi-nation purposes (for either case 1 or 2) by over-lapping the sleeve off the outer cable jacket onto the area where the cables fan out for termination. Outside l~ containment or in mild environments the l afore mentioned method may be used or field may use an equivalent substitute for insulation such as taping or a commercial grade of shrinkable tubing.

3.1.6 General Guidelines for Splicing 3.1.6.1 Cable splices shall be made where:

(1) The circuit length exceeds the full standard-cable reel length.

(2) The allowable cable pulling tension will be exceeded.

(3) Specified on design drawings and/or cable schedules of the design project.

(4) The cable insulation or conductor has been damaged (unless it can be repaired per Section 6.0).

(5) The point oE termination must be extended because of design change or incorrect termination prior to checkout.

3.1.6.2 Criteria for splicing: *

(1) Splices shall be made in boxes or enclosures when located in seismic category I structures (except as noted in 2 and 3). This requirement is also recommended in non-category I structures unless otherwise noted on design drawings. (Refer to SQA

  • 134 for list of Category I structures as required).

For splicing of cable (s) installed in cable trays field may use SD-E12.5.9. (See Attachment II for

, SD-E12.5.9) 6 .

- - - . -~-.-,, -

SQNP M&AI-7 Page 25 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.6.2 (continued)

(2) In conduit banks, splices may be made in the cable trays located in manholes. In conduit banks containing handholes, splices may be made directly in the handhole.

(3) In cable trenches, splices may be made directly in the cable trench.

(4) Cables shall be supported so there is no mechanical l

load on the splice.

(5) The splices shall be arranged to' avoid physical buildup at any one point. Staggering of splices is recommended but not required. The combined area of the spliced conductors shall not exceed the application diameter range of the Raychem WCSF-N overall sleeve. (refer to SD-E12.5.6).

(6) Each spliced circuit shall have a permanent identi-fication tag containing its unique designation per cable schedule or pull card installed adjacent to the completed splice and if possible WP or MR/WR number should be listed also. Refer to electrical standard drawing SD-E15.3.4.

(7) The field shall document on cable termination /

splice data sheet and cable pull cards where splices have been made. This documentation shall be detailed enough to readily locate the splice by specifying splice elevation, distance from column lines, or azimuth and radius as applicable.

Also related contract and cable reel no.(s) shall also be recorded on cable pull cards for splices.

NOTE: Cognizant engineer should add M&AI-4 and -6

- data sheet (s) in WP's or WR/MR's as necessary when splicing for documentation purposes of the addition of a new length of cable or conduit.

Cables in the 480V and medium voltage (5-15kV) shall not be spliced inside the cable spreading room.

SQNP M&AI-7 Page 26 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.6.3 Splicing guidelines at Electrical Penetrations-For locations, connections, and voltage levels on electrical penetrations field should refer to 45N860-3/45A860-series for Unit 1 and 45N870-3/45A870-series for Unit 2. Also for electrical penetrations 1 through 4 (6900V), see

" Installation Instructions for Westinghouse Electronic Tube Division" and the memorandum from F. W. Chandler to R. M. Pierce (SQN 127A and WBN 127A). On splices made at the electrical penetrations it is recommended that six to eighteen inches of slack should be lef t in the spliced cables and that no cutoff or minimum-tare cut off should be made on the leads from the penetration.

It is also advisable that the field should megger and make continuity checks on penetration leads prior to making splices.

l 3.1.7 Thermoplastic or Thermosetting-Type Insulations-Splicing (600V or less) 3.1.7.1 Splicing of conductors shall generally be accomplished by means of enclosed (ring or rectangular) tongue

, terminal lugs or butt splices crimped onto the wires by means of appropriate tools (see Section 2.2.1). Excep-tions to this method are noted in Section 3.1.7.3.

Terminals and splices of a campany shall always be installed with a tool purchased from or certified by that company and it is important to follow the manu-facturer's instructions applicable to the specific installation being made to ensure a carefully controlled uniform pressure crimp.

^

I 3.1.7.2 Either uninsulated or preinsulated terminals and butt splices, referred to in Section 2.2.1, may be installed in systems of 600V or less and wire size No. 10 AVG and smaller. Preinsulated terminals having a wire insulation grip shall be used where it is desirable for the insu-lation of the barrel of the terminal to give some protection against electrical faults and accidental contact with live termint.ls or where mechanical stress relief from vibration or flexure at the point of appli-cation might be required. Preinsulated terminals and butt splices within primary containment shall be Tefzel or Kynar. The vinyl or nylon self-insulated fittings are intended for applications where ghe totaf temperature of the conductor does not exceed 105 C (221 F).

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M&AI-7 Page 27 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.7.3 Exceptions to the preferred method of splicing conductors as described in 3.1.7.1 are permissible in certain appli- '

cations. These applications and the alternative methods of splicing cables are described as follows. Where appli-cable, torquing shall be accomplished in accordance with M&AI-9. Data sheets for bolted connections to be added as required.

3.1.7.3.1 Communication Systems - Provided the conductor size is no larger than No.18 AWG, splicing may.

be accomplished as follows: by soldering when done in accordance with Section 4.0; by use of studs or terminal blocks on devices provided the conductor is coiled a minimum of 180 degrees around

( . the stud or screw of the terminal block; or, by l use of any other industry accepted terminating method (such as quick connect and wire wrap term-inals) provided the manufacturer's instructions are followed and appropriate tooling is used. ,

3.1.7.3.2 Lighting Branch Circuits - Self-insulated elec-trical connectors (such as hand twist wire nuts) as specified in Section 2.2.4 may be used to splice conductors.

3.1.7.3.3 General Applications Involving Diodes, Resistors, Capacitors, and Similar Devices having Solid Conductor Leads - Splicing the leads from devices of this type may be accomplished in any one of the following ways:

a. Soldering (for soldering criteria see Section 4.0), or
b. Soldering over a connection made in accor-dance with Section 3.1.7.1.

3.1.8 Thermoplastic or Thermosetting Type Insulation-Splicing (5-15kV)-

Splicing of medium-voltage (5-15kV) power conductors shall be accomplished in accordance with standard drawing SD-E12.5.3 and associated vendor kit instructions furnished with splice kit.

  • 3.1.9 Rubber or Rubber-Like Insulation-Splicing (600V or less) -

Unless otherwise noted on design drawings, cables with rubber -

or rubber-like (silicone) 125" C or more insulation in systems of 600V or less shall be spliced by one of the following procedures:

~

e s SQNP M&AI-7 Page 28 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.9.1 In non-Class 1E applications install uninsulated terminals or butt splices of appropriate size (see Section 2.2.1), build up over exposed copper surfaces with 3M Company, Scotch 70 tape (temperature rating 180 C) to a thickness equal to the original insulation, and use Raychem WCSF-N material for the jacket replacement.

The use of Raychem's WCSF-N sleeving (reference Sections i

7.0 through 7.3) shall ue'used on Class 1E splicing and used as a replacement for jacket material. Install as defined on design drawings, standard drawings SD-E12.5.6, SD-E12.5.7-1,or SD-E12.5.7-2, or per approved WP instruc-tions and/or sketches. .

3.1.9.2 For splices in multiple-conductor cable, splice and insulate the single conductors in accordance with'

)

' 3.1.9.1 above for non-Class 1E applications. The use of Raychem's WCSF-N (see standard drawing SD-E12.5.8) and (Section 7.0 through 7.3) shall be used as a replacement for the jacket material for the overall Jacket. In Class IE applications, Raychem WCSF-N materials shall be used and installed per SD-E12.5.8.

3.1.9.3 Install self-insulated terminals or butt splices (see Section 2.2.1) for wire sizr No. 10 AWG and smaller.

Preinsulated terminals or butt splices shall either Tefzel or Kynar. These preinsulated terminals or butt splices are intended for applications where the total temp"erature of the conductor does not exceed 150 C (300 F) e.g. within primary containment. Terminals for wire size No. 8 AWG and larger shall be installed in accordance with either 3.1.7.1 or defined on design drawings.

3.1.9.4 Permissible exceptions to the preferred method of splicing conductors are the same as those given in Section 3.1.7.3 for conductors having thermcplastic or thermosetting-type insulation.

3.1.10 Coaxial and/or Triaxial Cable Splicina-Splicing of coaxial and triaxial cable shall not be permitted for Class 1E cables. '

Splicing of non-class IE coaxial and triaxial may be done by installing (1) a male BNC coaxial cable and a female BNC coaxial connector and and connecting the two. Also install e WCSF-N sleeve of appropriate size a minimum of 2 inches beyond each end of connectors. (2) Same as above except using Triaxial connectors.

NOTE: An equivalent substitute for the male to female connector is the installation of two male connectors connected by a double barrel female connector.

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a SQNP MA&I-7 i Page 29 of 45 Revision 8 3.0 INSTALLATION (continued) 3.1.11 Installation of Raychem End Caps or Raychem End Sealing Kits (NESK)-shall be used for Class 1E applications and in harsh environment areas in sparing of conductors and/or cables and may be used in non-Class IE applications at cognizant engineer discretion. Refer to Electrical Standard Drawing SD-E12.5.7-1 for use ranges of Raychem End Caps and Raychem Nuclear Products Guide-I for use ranges of NESK kits. NESK kits or equivalent individual pieces of Raychem end caps and sleeving shall be used for sparing of Class IE conductors / cables inside containment and areas subject to LOCA or HELB conditions.

(1) The cognizant engineer shall coordinate with the field on sizing of kits and/or pieces to be used.

(2) Remove all non qualified or braided Jacketing material l from the cut end. Raychem products are designed to seal on smooth non-woven surfaces, therefore, if cable / conductor jacket is either theromplastic, thermosetting, rubber, or rubber like this step may be waived. All non qualified or braided jacketing material should be removed for a distance ,

of approximately 1/2" longer than the length of the cap.

(3) Verify cable / conductor is free of grease, oils, moisture, or other contaminants prior to installation of Raychem p roducts . Clean with an approved solvent as required.

(4) Position end cap over cable or wire as far as it will go and shrink into place.

(5) If assembling an NESK kit (or equivalent individual pieces) position outer sleeve over the end cap such that there is approximately 1/2" extending past the closed end of'the cap, and 1" minimum overlap off the open end of the end cap to the cable.

NOTE: Signoffs for deleted or spared cables or conductors will be done via approved WP or MR/WR instructions deleted cables should be identified with ECN/WP numbers. i I

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SQNP M&AI-7 Page 30 of 45 Revision 8 Ie 3.0 ' INSTALLATION (cc.Linued) _

3.2 Minimum Bending Radius

, 3.2.1 ' General Information For a detailed discussion of Minimum Bending Radius, see M&AI-4 and/or DS-E12.1.5.

[' Definition--The Minimum Training Radius (MTR) is the smallest l radius to which the inside surface of the cable or conductor may be bent after all pulling operations have been completed.

3.2.2 Calculations and Requirements I ,

In making terminations and splices, the MTR of the cables and/or conductors must be considered.as follows:

1. The MTR for single conductors is equal to the appropriate

', installation factor (I fc the cable outside diamefer) (OD). in Table 1 of DS-E12.1.5 times MTR = I

. fac

~' , 2. For multiconductor cables the minimum training radius as followa:

MTR = I

- fac

  • OD eable However, in terminations and splicing of the multi-conductors, the outer jacket is normally removed to allow for the installation of the terminal lugs and/

, or butt splices. Therefore:

HTR = OD

  • conductor fac NOTE: If necesssary, the cognizant engineer shall coordinate with OE in obtaining relaxed values t / of the MTR.

For multiconductor or single conductor terminations /

splices covered with a Raychem sleeve the MTR should ,

be based on 5 times the new OD of the splice but shall not exceed the MTR value of the cable or individual conductor. It is recommended, where feasible, that the termination / spliced connection not be bent.

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i SQNP M&AI-7 Page 31 of 45 kevision 8 3.0 INSTALLATION (continued)

The cognizant engineer shall determine the MTR in accord-ance with the above, shall calculate it, and shall list it on the applicable" data sheet (s) used and/or within the workplan/WR or MR instrucations prior to making the splice /'

termination.

4.0 SOLDERING CRITERIA FOR' INSTALLATION AND INSPECTION 4.1 General Instructions If there are no guidelines or instructions provided by vendor or TVA drawings or approved vendor manuals or any other EN DES documents the following guidelines may apply for solder joints.

4.1.1 Resia core solder shall be used on all solder terminations /

splices. Specific composition is required only on Triax cables (e.g. NIS and incore monitoring cables). Kester solder "44," 63% tin /37% lead, maximum diametor 0.031 inch shall be used on NIS cable connectors.

4.1.2 Conductors shall be cleaned and tinned prior to making joint.

4.1.3 The size of soldering iron shall be such that joint is not overheated.

4.1.4 .The soldering iron shall not be used to melt the solder l directly, but will be used to heat the joint which in turn shall melt the solder.

4.1.5 Conductor insulation shall be kept from burning or melting. j 4.1.6 ' Termination / splice shall have an in process and visual l l

inspection that will verify that the solder joint is clean, has a smooth bright appearance free of any chalky, gritty, or irregular surfaces (protrusion;, pits, and voids) and free of excess solder and resis.

I 5.0 INSPECTION CRITERIA 0F CABLES OR INTERN:iL PANEL WIRING 5.1 General Inspection Criteria Requirements NOTE: The cognizant engineer may develope his own data sheet for signoffs but it shall be similar in content to Data Sheet 1 or 2.

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SQNP

[ M&AI-7 l Page 32 of 45

} Revision 8 f 5.0 INSPECTION CRITERIA 0F CABLES OR INTERNAL PANEL WIRING '(continued) 5.1.1 Cognizant engineer or designated representative shall list cable numbers or panel wires on cable termination / splice Data Sheet 1 or internal wiring changes Data Sheet 2 as applicable and associated reference drawings / locations.

(a) Cognizant engineer will designate whether the termina-tions/ splices are being made in a HARSH or MILD environment per the 47E235 series of enviromental drawings by checking the appropiate block on data sheet. (b) If internal wiring l l changes are being made, cognizant engineer shall list AS CON-l STRUCTED wiring configuration under CHANGE FROM column and the i

new wiring under the CHANGE TO column. If wiring is only being.

deleted or removed cognizant engineer shall list the existing wiring configuration under the CHANGE FROM column and write the word REMOVE under the CHANGE TO column. If wiring is only being

} added the word ADD shall be listed under the CHANGE FROM column and the new configuration ~shall be listed under the CHANGE TO column.

5.1.2 On internal panel wiring inspector shall list wire type and contract and/or cable reel number on internal wiring changes Data Sheet 2. .

5.1.3 There shall be no apparent damage to the cable / panel

. wiring conductor (s) or the conductor (s) insulation.

This may be verified by visual inspretion. Damaged cables / conductors shall be repaired per Section 6.0 or replaced at the discretion ~of cognizant engineer.

5.1.4 Cables shall have continuity checks performed on them to verify that the conductor (s) have end-to-end continuity.

There shall be no short circuits (" cross talk") between conductors,. conductors and ground, or conductors and shield (s).

For coaxial, triaxial, and similar type shielded cables shall show no continuity between center conductor and outer connector shell. Inspector shall record V0M CSSC identification number l and calibration due date on applicable data sheet (s) blanks. If phones or equivalent equipment were used, inspector shall record

' the word PHONES or type of test equipment used in the METER NO./ CALIBRATION ?SE DATE blank on applicable data sheet (s) and signoff if accept.ble.

5.1.5 Cables shall be meggered to verify insulation integrity. The '

megger identifier number, calibration due date, and megohm reading will be recorded and signed by the inspector verifying that the

- megger used was within calibration and megger readings obtained were acceptable. Megger readings of 1 megohm per 1000 volts of cable insulation rating with a minimum of 1 megohm are acceptable for cables.

NOTE:

(1) Meggering of internal panel wiring is not required but may be done at the discretion of cognizant engineer.

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[ SQNP l M&AI-7 Page 33 of 45 Revision 8 l -

5.0 INSPECTION CRITERIA 0F CABLES OR INTERNAL PANEL WIRING (continued)

(2) Megger and high potential test shall be required on I medium voltage cables. These test should be coordin-ated with DPS0 and it is recommended that lugging and installation of medium voltage termination kits be done prior to megger checks. Inspector will list

'megger CSSC identification number and calibration due

_ date on appropriate workplan or data sheet blanks as required and signoff if acceptable.

NOTE
Acceptance criteria for medium voltage cable tests shall be included in WP/WR instructions or on data I sheet (s).

5.1.6 Cable (s), conductor (s), and internal panel wiring shall be properly lugged, terminated, and/or spliced, and identified in accordance with this procedure, design drawings, and Attachments I, II, and Appendix C.

NOTE: Cognizant Engineer or designated representative should' list' cable number and appropriate design drawing, design standard drawings, and/or associated sketches page number (s) for cable terminations and splices on applicable data sheet (s).

Inspector to verify proper terminal lugs, butt splices, pins,

! or connectors are used and installed with the correct crimping tool as-applicable and that an proper crisp is obtained. (Refer to Appendix C as needed). For soldered connectors refer to Sec-i tion 4.0. Inspector shall verify that connectors such as coaxial, l triaxial, or pin-type are properly aligned crimped and connected .

L The inspector shall record the crimping tool number and its cali-bration due date on the appropriate data sheet (s) and signoff that

-the termination or splice meets the above criteria.

NOTE: Torquing of b'olted connections shall be done per appli-cable part's of M&AI-9.

_ . 5.1.7 Terminations / splices requiring Raychem installation of shims, sleeves, multiple sleeves, and/or breakouts or taping shall be inspected per applicable design standard ' drawings, design drawings, vendor instructions supplied with kits, and/or sketches supplied by cognizant engineer. Inspector shall verify

  • proper installation of Raychem or taping per the above and signoff on Cable Termination / Splice Data Sheet 1. For a general installation guide for Raychem Products see Section 7.0. If Raychem or taping are not required the cognizant engineer or his designated representative shall N/A this signoff as required.

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SQNP M&AI-7

.I (- Page 34 of 45 Revision 8 5.0 INSPECTION CRITERIA OF CABLES OR INTERNAL PANEL WIRING (con 5.1.8

., laspector shall verify all' cables or panel wiring is properly, I., terminated / spliced secured (bundled, tie-wrapped, and routed),

. and that the minmum training radius of the cable / conductors has not been exceeded. This value shall be provided by the cognizant engineer.

(a) The inspector shall also verify that cables and/or internal panel wiring that must be lifted in order to delete or add new cables or' internal panel wiring (i.e. more than one ter-I. minal lug per terminal block point) are also relanded. These wires affected by additions or deletions to field or vendor wiring are considered part of termination process and will not be required to be listed separately on either Data Sheet 1 or 2.

(b) On Internal Wiring Changes Data Sheet 2 the inspector will verify and.signoff for internal panel wiring that is terminated I . and/or point (s).removed from the panel, compartment, or terminal block

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(c) Terminal blocks that are coated with RTV 3140 should be recoated after cable or wiring is acceptable. ' Inspector to ,

signoff on applicable data sheet as acceptable. Terminal blocks that are recoated with RTV 3140'shall be inspected and noted in REMARKS section of the afore mentioned data sheet by the inspector.

6.0- REPAIRING DAMAGED CABLES 6.1 General Instructions 6.1.1 Should a cable be damaged, the cable shall be spliced, replaced,

. or may be repaired, depending on the extent of the damage.

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Repairs may be made to the jacket, shield, and insulation of low-voltage cables with the following restrictions:

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(a) If the conductor has been damaged, the cable-shall be spliced or replaced per applicable parts of this procedure.

(b)

. Where the damage involves multiple components of low voltage cable (i.e. Jacket, shield, and/or insulation), each component shall be repaired individually.

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(c) . Effective August 1, 1984, rep' airs of coaxial and triaxial

  • cable are If mited to non-class 1E applications only; after this date, damaged Class 1E coaxial and triaxial cables shall be replaced. -

6.1.2 For medium-voltage power cables, repairs may be made to the jacket only; if damage extends beyond the jacket the cable

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shall be spliced (see Section 3.1.8) or replaced. Unless otherwise indicated, repairs may be made on both Class IE and non-class 1E low-voltage and medium-voltage power cables.

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SQNP M&AI-7 Page 35 of 45 Revision 8 6.0 REPAIRING DAMAGED CABLES (continued) 6.1.3 Should damage occur during installation, the field (cognizant engineer or his representative) shall document on cable pull cards where any repair has been made for Class IE cables; also, a cable tag containing the cables unique identification and WP or MR number shall be installed adjacent to the repaired area.

When damage is discovered at a later date and identity of the Class 1E cable is not easily determined ( e.g. a cable in a cable tray) the repaired areas may be ident'ified by a permanent identification tag containing the cable number (if able to be I determined) and the WP or MR number to document the repair.

Exception: Cable tags are not required where minor repairs have been made on cables having braided-type covering.

NOTE: Repairs to leads of motors and similar equipment shall be performed per these instructions for repairing damaged cables with the exception of installing a cable tag at the repair. The repair location shall be documented in the MR or WP. package.

NOTE: If an existing cable is damaged, the field should obtain a clearance on the power source feeding that cable via the Shift Engineer.

6.2 Cables having Thermoplastic, Thermosetting, Rubber, or Rubber-like Jackets and Insulations 6.2.1 General requirements NOTE: Field to verify cable is deenergized prior to making repairs. In addition to the specific requirements associated with the use of a particular cable repair option, the general requirements below shall be, followed in making cable repairs:

6.2.1.1 Remove any foreign material or loosely attached portions of the damaged cable. Reposition and/or carefully trim any jagged edges which protrude above the surface contour of the area being repaired.

6.2.1.2 Clean the damaged area using denatured alcohol. -

6.2.1.3 After completion of repair, a cable tag, shall be installed adjacent to the repaired area containing the unique cable identifier (if it can be determined), WP or MR number under which the repair was made, and field shall document the repair location on the cable pull card schedule.

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SQNP M&AI-7 Page 36 of 45 Revision 8 l

6.0 REPAIRING DAMirED CABLES (continued) 6.2.1.4 Upon completion of repairing the damaged cable the field shall verify continuity and insulation integrity per 5.1.3, 5.1.4 and 5.1.5 respectively. Cable will need to be lifted on each end to perform this step. Field will maintain cable and/or wire number identification to ensure proper relanding of cable. Cognizant engineer or his designated l representative will provide associated drawings to the l field for lifting and relanding of cable.

6.2.1.5 Field to reland cable per 5.1.8 and applicable drawings.

6.2.1.6 Field to release clearance to cable power feed if applicable and perform functional test as required.

NOTE: Functional testing of a new cable being-installed after being repaired will be covered under the functional test of the WP associated with the ECN, FCR, or DCR. However, functional '

tests for existing cables that are damaged and repaired will be done via a maintenance request.

6.2.2 Jacket Repairs If a jacket repair is to be made, it shall be accomplished using one of.the following options:

6.2.2.1 Option 1 - Subject to the following conditions, AMP's cold shrink tape may be used for jacket repairs of low voltage cables. Effective August 1, 1984, the use of Option 1 is limited to non-Class lE applications; after this date, Jacket repairs for Class IE cables shall be made using Option 2 or Option 3.

- (a) The tape shall not be used inside primary containment and other areas classified by OE as having a harsh environment.

(b) Use of tape is restricted to repairing -

jacket damage which is discovered after the cable has been installed.

(c) The tape shall not be.used to repair the cable's jacket if the shield and/or the insulation has also been damaged.

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SQNP M&AI-7 Page 37 of 45 Revision 8 6.0 REPAIRING DAMAGED CABLES (continued)

The following procedure shall be adhered to when repairing cable jackets using this option:

Step 1 - See general requirements Section 6.2.1.

Step 2 - Peel off the backing from the tape.

l Step 3 - Stretch the tape to approximately l three times its length and wrap under tension with approximately a 50 percent overlap.

Step 4 - The tape shall be applied to the cable for a minimum of 2 1/2 inches beyond the outermost bounds of the damaged area.

6.2.2.2 Option 2 (For cables whose jacket is damaged'near the end of the cable or where tubing can be slid over one end down to the damaged area), a piece of Raychem heat shrinkable sleeving may be used to repair the outer -jacket of both low-voltage and medium-voltage power cables by slipping the sleeving over one end of the cable and sliding it'along the cable to the area needing repaired.

Type N heat shrinkable tubing shall be used in all Class 1E applications and may be used in all nonClass lE applications. Industrial grade heat shrinkable tubing may be used in all nonClass IE applications.

The procedure outlined below shall be followAd when using Option 2 to repair cable jackets:

Step 1 See general requirements, see Section 6.2.1.

Step 2 In accordance with SDE12.5.6, select and install a piece of Raychem heat -

.. shrinkable sleeving over the damaged jacket. The maximum length of the sleeve shall be determined by the cognizant engineer; however, prior to shrinking; the sleeve shall be long enough to extend a minimum of 2 1/2 inches for Class lE cables and a 1 1/2 inches for nonClass 1E cables beyond ,

the outermost bounds of the damaged area.

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.SQNP M&AI-7 Page 38 of 45 Revision 8 6.0 REPAIRING DAM.'.:ED CABLES (continued) 6.2.2.3 Option 3 Raychem type JRS, MRS, WRS, and NJRS cable repair sleeves may be used to repair the outer jacket of low-voltage and medium-voltage power cables. Effective August 1, 1984 use of the JRS, MRS, and WRS cable repair sleeve is limited to nonClass IE applications; after this date NJRS cable repair sleeves shall be used on Class IE cables when Option 3 is selected to make cable repairs.

Step 1 See general requirements in Section 6.2.1.

Step 2 Apply a layer of Raychem Type N mast ic in ribbon form, Raychem S1024, or Sll19 red adhesive tape (approximately half-lapped) for a minimum of 21/2 inches for Class IE cables and 1 1/2 inches for- .

nonClass IE cables beyond the outermost bounds of the damaged area.

Exception: Step 2 is not required when the rectir is being made in a mild environment or if an NJRS cable repair sleeve _is being used.

Step 3 - Using manufacturer's catalog data, select a properly sized Raychem type JRS, MRS, WRS,

' and NJRS cable repair sleeve and install according to manufacturer's instructions, except that electric heat gun shall be used.

The maximum length of the' repair sleeve shall

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be determined by the cognizant engineer but it shall be long enough to cover the Type N mastic applied in Step 2.

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6.2.2.4 Option 4 - Use of Option 4 is limited to non-Class lE applications. Jacket repairs for Class lE should be made using Option 2 or Option 3 only.

This is the least desirable method of repairing

  • the outer jacket medium-voltage power cables.

Step 1 - See general requirements in Section 6.2.1.

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SQNP-M&AI-7 Page 39 of 45 Revision 8 6.0 REPAIRING DAMAGED CABLES (continued) 6.2.2.4 (continued)

Step 2 - Cover damaged areas with 3M Company Scotch 70 tape, (approximately half-lapped) for approximately 1 1/2 inches beyond each side of damaged area.

Step 3 - Cover Scotch 70 tape with Scotch 33+

tape.

Step 4 - Apply friction tape over Scotch 33+

tape.

Step 5 - Cover friction tape with layer of Scotch 33+ tape.

Step 6 - To prevent tape from unwinding, coat with a sealant bonding compound such as Scotch Kote (available from 3M Company).

6.2.3 Shield Repairs Repairing the shield of shielded-low voltage cables shall be accomplished in the following manner:

Step 1 - See general requirements in Section 6.2.1.

Step 2 --Remove the cable jacket and any binding tapes a minimum of 2 inches in each direction from the outermost bounds of the damaged shield area.

Remove damaged section of shield and inspect insulation for damage. If the insulation has been damaged, make repairs using the same procedure as described in Option 2 (see Section 6.2.2) prior to repairing the shield.

Note: Wrap the damaged shield area with a new shield (shield shall be the same type of material as the damaged shield) 1 1/2 inches in each direction from the outermost bounds of the damaged area. Where applicable, '

splice the drain wire if it has been damaged or broken.

Step 4 - Apply 3M Company Scotch 33+ tape to each end of the shield to hold firmly in place.

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SQNP M&AI-7 Page 40 of 45 Revision 8 6.0 REPAIRING DAMAGED CABLES (continued)

Step 5 - Measure the de resistance of the shield; a reading of 0.01 ohms per foot is acceptable. If the reading is above 0.01 ohms per foot, recheck step 4 to ensure the new shield has good electrical contact with the existing shield. Remeasure the de resistance; refer to EN DES for evaluation if the value is still above 0.01 ohms per foot. If evaluation from EN DES is favorable with recorded reading cognizant engineer will I note this on data sheet REMARKS.

Step 6 - Complete by repairing the jacket in accordance with applicable Option 1 through 4 in Section 6.6.2.

6.2.4 Insulation Repairs Insulation repairs for. low-voltage cables shall be in accordance with the same procedure set forth in section 6.6.2 under Option 2 for jacket repairs. Prior to making the repair, the damaged area shall be carefully inspected for conductor damage; if the conductor is damaged or Option 2 is not feasible the cable shall be spliced or replaced.

Af ter repairing the insulation, complete by repairing the shield (where applicable) and jacket in accordance with Sections 6.2.3 and 6.2.2 respectively.

6.2.5 Cables Having Braided Type Coverings Over the Insulation 6.2.5.1 Minor scuffs or abrasions to braided-type coverings of cables shall be repaired by recoating. A modified silicon saturate (Compound No. 178-918-XMT, black, available from Standard T Chemical Co., 2600 Rickman Terrace, Staten Island, New York, 10303) may be applied to the abraded area of asbestos-covered cables. Other type of braided coverings such as aramid fiber or fiberglass may also be repaired using the same techniques and a compound recommended by the respective cable vendor and approved by EN. DES. Tagging the cable with its unique identifier is not required for repairs of this type.

6.2.5.2 Where damage to the braided jacket ,is severe enough to expose the insulation, the cable shall be replaced or

  • repaired in accordance with Sections 6.1 and 6.2.

NOTE: Exceptions to 6.2.5.1 may be used if the respective cable v'endor approves repair of braided type coverings suggested by cognizant engineer or supplies vendor approved instructions for repair.

of his product.

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e SQNP M&AI-7 Page 41 of 45 Revision 8-I.

7.0 INTRODUCTION

TO RAYCHEM HEAT SHRINKABLE PRODUCTS Raychem.WCSF is a heat shrinkable, flame retarded flexible polyolefin tubing which is especially formulated and tested to withstand the particular environment found in light water reactor nuclear generating stations. It may be supplied in either " coated" or " uncoated" foon.

When coated, the suffix "N" is added to the part designator to indicate that the entire inner surface of.the tubing is covered with an adhesive which is designed to form an environmental seal under normal, off-normal and design basis event (DBE) conditions. Uncoated tubings carry the suffix "U".

I WCSF is rated to 1000 volts. The tubings have been tested and qualified to a 40-year service life at 90*C continuous operating temperature.

' Qualification - Raychem has performed environmental qualification type testing with WCSF-N tubing-in accordance with the guidelines of IEEE Std. 323-1974 and IEEE Std. 383-1974 to qualify WCSF-N for use on Class IE electrical systems within the containment of nuclear generating systems.

Raychem qualification type tests are valid when the tubing is used .

in accordance with the guidelines and the application ranges included in this document. -Use of the product outside the published use ranges may invalidate the applicability of the qualification tests.

The qualification status of Raychem nuclear products is conditional on the substrate materials being capable of maintaining physical and seal integrity under the same conditions to which the Raychem materials are qualified. It is also required that the cable substrates to which Raychem products are applied be clean and degreased a'nd be suitable-sealing surfaces (e.g., woven jackets or. braids are unacceptable' as sealing surfaces in the splice area).

7.1 Selection of Tubing 4

7.1.1 General Requirements Selection of tubing must first be based on whether it is

_ intended for use inside containment, where DBE environmental parameters apply, or outside containment, where no accident environmental performance is required. Tubing application ranges are most restrictive inside containment to ensure qualification for LOCA/MSLB environments. '

7.1.2 Tubing Application Range Determine the diameters 'of both wires to be spliced and the dimensions of the splice hardware to be used. When splicing multi-conductor cable it is important to obtain measurements of both the individual conductors and the outer cable jacket diameters.

W m ,- , ---,,,-,,,,,,g-,.,w--- -r, ,.m --

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SQNP ~

M&AI-7 Page 42 of 45 3 Revision 8

7.0 INTRODUCTION

Tr RACYCHEM HEAT SHRINKABLE PRODUCTS (continued) 7.1.2 (continued)

Refer'to applicable electrical standard drawing (s) to determine the applicable use range

  • of the Raychem Product i

needed to accomodate the splice diameters. (i.e., SD-E12.5.6 Type N Heat Shrinkable Cable Sleeves. Table A - inside containment or Table B - outside containment applications).

Generally, select the largest size tubing from applicable range table which accomodates the splice diameters. The ranges of Type N tubing on SD-E12.5.6 should also be used when sizing Type U tubing for splices and/or terminations.

t Generally, use a 3 inch nominal overlap onto the wires to assure a 2 inch minimum seal length. This allows for longitudinal shrinkage and positioning error. The 2 inch minimum seal. length shall be required for all terminations /

splices unless specified on design drawing and/or notes.

For seal lengths less than the 2 inch minimum the cognizant engineer shall coordinate these special cases through OE. ,

For braided type jackets it is allowable to overlap the N

outer sleeve approximately 1/4 inch (from the primary insulation 2 inch minimum installation) in order to hold the braided jacket in place or a separate piece may be used. Since this piece is for cosmetic type purpases either type N or U sleeving may be used.

USE RANGE is defined as the range of substrate diameters over which the tubing.is intended for use.

.2 NOTE: WCSF-050N is a thin wall tubing for use as a shim or small wire jacketing; not as primary insulation.

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7.1.3 Cable Preparation .

All Raychem shrinkable products are designed to be used on smooth, clean substrates. Glass, asbestos, or similar braids must be removed to. allow a coated part to perform its sealing function. When multiconductor cable jackets are removed, all binders, tapes and fillers should be trimmed back to the jacket.

Af ter making connections, . sharp edges, or protruding wire strands shall be removed using abrasive cloth (i.e., 120 grit aluminum oxide cloth) or by a file.

Reelean or degrease as required.

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F SQNP

-M&AI-7 1 Page 43 of 45 Revision 8

7.0 INTRODUCTION

TO RACYCHEM HEAT SHRINKABLE PRODUCTS .(continued)

[ 7.1.3 (continued)

Clean and degrease cable jacket and wire insulation with l a solvent such as 1,1,1 trichloroethane*. All surfaces i must be free'of grease, oils, moisture, or other contaminants prior to being brought into contact with Raychem products.

-Slide all applicable tubing, breakouts, etc. over cable end(s) prior to' making connections.

NOTE: For cleaning solvents that may come in contact with the reactor coolant system refer to SQA 160.

i

  • WARNING Do not allow organic solvents such as ketones

[MEK, acetone, acyclohexanone, halogenated hydro

  • carbons (carbon tetrachloride, 1,-1,1-trichloroethane, methylene chloride, freon 22, freon TA, trichloroe-thylene, chloroform, chlorobenzene, tetrachloroethylene, 1,1,2,2-tetrachloroethane), aromatic hydrocarbons

'(toluene, exylene, benzene), or esters (ethylacetate) to come in direct contact.with or in close proximity to the electric conductor seal assemblies as these materials t

may cause irreparable damage to the feed through conduc-tor seals. This includes the cleaning solvents, trichlor-ethane, referenced in Raychem Kits and CRC Cable Cleaner (brand name).

7.1.4 Installation Technique 7.1.4.1 Heat shrinkable components must be heated uniformly, both circumferentially and lengthwise using an electric hot air heater. Components shall be heated such that 7 they shrink uniformly, and after shrinking, have a. smooth shiny outer surface. When shrinking coated components, an adhesive bead should appear at coated ends indicating that the adhesive has melted and flowed.

7.1.4.2 Tubing Components - Center tubing to be shrunk over

- connectors or position as required and begin shrinking tubing components at the center of the tube. Heat uniformly circumferential1y. When recovered, move first .

toward one end, then the other. Tubing is " fully recovered" when the outer surface is, smooth and has a .

glossy appearance and (if coated) there is visible flow of adhesive at each end of the tubing.

7.1.4.3 Breakouts and End Caps - Small cable breakouts and end i

caps require less heat for shrinking. Position breakout or end cap on cable as required. (1) shrink breakouts at the junction of the legs and body. After the legs are recovered shrink the body portion. (2) shrink end caps, beginning with the closed end and work towards the open end.

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p, SQNP q M&AI-7 Page 44 of 45 4 Revision 8

7.0 INTRODUCTION

T0 RACYCHEM HEAT SHRINKABLE PRODUCTS (continued) 7.1.4.4 Shims - When substrate diameters vary greater than the

, use range for a single tubing, shims are used to build

, up the diameter of one or both wires to within the use

,1 range of the termination / splice insulating sleeve. It is necessary to assure that all tubing is used'within s its recommended use range. Reference SD-E12.5.6 (NOTE 12),

i

, Table A or B and/or SD-E12.5.7-1 Tables E and/or H.

Normally the entire length of the shim must be applied to a suitable sealing surface to maintain a 2 inch minimum seal length; however, an exception to this case arises (see SD-E12.5.8) where in some cases a shim may be required to build up individual conductors in order 1

to meet the use range of the breakout's legs or body.

,; NOTE: If it becomes necessary-to shim the individual conductor of.a multi-conductor cable for the i

installation of a cable breakout's legs or body, the minimma length of the shim should be equal to the length of the breakout's leg or body. In this case shims length use may vary but should t'

extend out from the breakout legs or body by.1/4 inch minimum. The outer tubing (i.e. overall outer sleeve) should mmpletely cover and overlap

,, the shim by a minimum of 1/4 inch.

NOTE: The formula for calculating the new outside 2

~ diameter of the substrate Dod=VD.d+K(i.e.when calculating shims) does not accound for adhesive thickness. An allowance of (.005 .010 inches) may be added to the new cable ouside diameter to

, account for the applied adhesive thickness. Also

, for calculation of the effective diameter, (Deff),

,. over a bolted connection for proper sleeve and/or

. shim selection see SD-E12.5.7.1 (Note 16).

DO NOT FLEX newly installed Raychem components until comfortable to touch.

It is recommended that in ambient temperatures below 40'F to preheat the splice / termination

  • area until it is warm to touch prior to install-d ation of tubing.

W

]t  :

SQNP j'

M&AI-7

(* Page 45 of 45 Revision 8 p.

7.0 INTRODUCTION

TO RAYCHEM HEAT SHR1LKABLE PRODUCTS (continued) 7.2 . Inspection of Installation and Acceptance Criteria Raychem heat shrinkable products shall be used on all Class IE

,)

terminations / splices except as noted on design drawings including electrical standard drawings, this instruction, or in approved WP instructions. Tubing and/or other components shall be positioned

, and installed per the above.

i p? Tubing and/or other components are " fully recovered" when both of the J', following criteria are met: (1) Outer surface is smooth and has a glossy appearance, (2) There is a visible flow of adhesive ~at each end of the tubing and/or other components (when using nuclear grade coated components).

NOTE: Uncoated components should generally conform to the I substrates contour. Overheating of the tubing must be avoided. This evidenced by scorching or blistering on

, i the surface. Any minor surface scorching that can be removed by' solvent cleaning is acceptable. Tubing with deep blistering shall be replaced.

L WCSF tubing and components which have a lumpy appearance not l conforming to the substrate or has a dull surface has not

,' been heated sufficiently. Under heating can be corrected at any time by reheating and continuing the shrinking process.

7.3 Removal of Installed Tubing and Components

~

WCSF tubing and components which are found to be incorrectly installed (i.e. improper location over splice or termination,

' wrong size tubing, scorched, blistered, etc) may be removed by lightly scoring the outer cover and reheating. The Raychem

,. tubing or component will shrink itself into and may be removed by use of channel locks or equivalent non-cutting tool. This o

is to prevent the electrician's hands or fingers from becoming burnt.

g.,

,' CAUTION: When scoring the outer cover of the Raychem tubing or component field to ensure the cable jacket, connector, or conductor (s) are not damaged.

.c e

a e

] .

w-

--n, , , -

@ SQNP "--]

M&AI-7 4 INSTALLING INSULATED CABLES RATED UP TO 15,000 VOLTS Appendix A l Page 1 of 1 i Revision 8 APPENDIX A HOMAS AND BETTS COMPANY TERMINALS, SPLICES, AND TOOLS FOR t

SEQ 1'OYAH AND WATTS BAR NUCLEAR PLANTS ONLY Thomas and Betts Company's cast copper compression series 53000 terminals and splices that are furnished with vendor-supplied equipment shall be.

i r*

used for field installations. The installation of these terminals and splices shall be made using tools purchased from Thomas and Betts Company as follows:

' Size of Conductor, Terminal Die Catalog No. Die Catalog No. Die Butt Splice AWG Catalog No. TBM15 Tool

  • 40-Ton Head Tool Code Catalog No.

= . .

8 53104 or 53204 15527 11401 29 53504

,. 6 53105 or 53205 15527 11401 29 53505

4 53106 or 53206 15527 11401 29 53506 r' 2 53107 or 53207 15526 11405 45 53507 1/0 53109 or 53209 15526 11405 45 53509 k* 2/0 53110 or 53210 15534 11409 66 53510 4/0 53112 or 53212 15534 11409 66 53512 250 MCM 53113 or 53213 15512 11410 76 53513 300 MCM 53114 or 53214 15512 11410 76 53514 400 MCM 53116 or 53216 -** 11424 99 53516 l

400 MCM 53116 or 53216 15505 ** 99H 53516 500 MCM 53118 or 53218 ** 11424 99 53518

. 500 MCM 53118 or 53218 15505 ** 99H 53518 750 MCM 53123 or 53223 ** 11426 112 53523 750 MCM 53123 or 53223 15609 ** 112H 53523

  • TBMIS head when using 15500 die series catalog numbers requires a die
adapter No. 15500.
  • Not available NOTE p/

The cast lugs listed above are factory marked for use with the 40-ton hydraulic head; therefore, the use of TBM15 hydraulic head would r'equire t twice the number of compression op-rations on large size lugs for proper w

termination due to the smaller ccmpression area of the 15-ton dies. Lugs ,

for the 350- to 500-MCM and 600- to 750-MCM copper wire ranges employ die

' codes for 99H and 112H, respectively, for the 15-ton head which are half-size. khenever possible all Thomas and Betts Company's series 53000 cast copper terminals above 300 MCM should be compressed with a 40-ton head.

.s h=

i

~

SQNP M&AI-7 h INSTALLING TNSULATED CABLES RATED UP TO 15,000 VOLTS Appendix B

' Page 1 of 3 Revision 8 APPENDIX B

(

Tables S-1, B-2, and B-3 provide guidelines for selecting the apprcpriate terminal and butt splice series, tools, and dies for a copper wire size

,A range of No. 22 AWG through No. 1000 MCM.

TABLE B-1

?

r

' TERMINALS, BUTT SPLICES, AVD TOOLS AVAILABLE (I FROM THOMAS AND BETTS COMPANY s

l.. Copper 600V and Below 601-15,000V Butt Applications Applications

1. Wire Terminal 1 Splice Range, Die" Die Catalog Series Tool Catalog Code e

AWG Die 2 Series

~

(AWG) No. No. ra. Catalog No.

22-18 A 16-14 2A(22-18) WT 130A None None Not Applicable B Noninsulated 2B(16-14) f' 12-10 C 2C(12-10)

WT 130A VT 130A None None Not' Applicable 3 22-16 RA Nylon or None None Not Applicable 18-14 2RA(22-18) WT 145C None None Not Applicable RB Vinyl 3 2RB(16-14) 12-10 WT 145C None None Not Applicable RC Self-insulated 2RC(12-10) WT 145C None - None Not Applicable 8 54000 54000 TBM5S 13454 None Not Applicable 6 54000- 54000 TB95S 13454 None Not Applicable 4 54000 54000 Tha5S 13454 None Not Applicable r 2 54000 54000 TBMSS 13454 None Not Applicable 8 54000 1 54000 TBM15 15520 21 Not Applicable 6 54000 54000 TBM15 15522 24 Not Applicable 4 54000 54000 TBMIS 15527 29 Not Applicable 2 54000 54000 TBM15 15528 33 Not Applicable 1/0 - 54000 54000 2/0 54000 TEM 15 15508 42H Not Applicable 54000 TEM 15 15526 45 15C-45R

,,, 4/0 54000 54000 j TBM15 15511 54H 15C-54R 250 MCM 54000 54000

(, TBM15 15510 62 15C-60R 300 MCM 54000 54000 400 MCM TBM15 15534 66 15C-66R 54000 54000

, TBM15 15512 76 15C-76R 500 MCM 54000 54000 750 MCM TBM15 15506 87H 15C-87R 54000 54000 t

_1000 MCM 54000 TBM15 15515 106 15C-106R 54000 TBM15 15603 125H 15C-125R 1.

Only enclosed (ring or rectangular type) tongue terminals shall be used.

Terminals with NEMA drilling and spacing shall be used when available. ,

s 2.

The TBM15 hydraulic head (15 tons) when using 15500 die series catalog numbers requires a die adapter, Thomas ~and Betts Company catalog No. 15500.

,, 3.

d For self-insulated applications within the primary containment, terminals L. with Tefzel insulation, RAT through RCT series as required, shall be Installed using tool No. WT145C.

, b.

Generally, at Sequoyah, Thomas & Betts Co. materials are used for wire ci2ca Co. 8 AWG and larger.

n P

SQNP INSTALLING INSULATED CABLES RATED UP TO 15,000 VOLTS M&AI-7 Appendix ~B APPENDIX B Page 2 of 3 ,

Revision 8 '

i TABLE B-2

  • TERMINALS, BUTT SPLICES, AND TOOLS AVAILABLE I

/ FROM AMP PRODUCT CORPORATION .

NOTE: AMP Butt Splices 330367 (22-16 At:G), 320559 (22-16),' and 31818 (22-16 ANC) may be stamped 22-18 in accordance .with MIL-T-7928, t

3 See Vendor Information for these or others that may be stamped this way, h' ' Copper Wire Self-Insulated Terminal Series 1 Range, AWG and Butt Splice Series Tool No.

  • 22-16 PIDG (Vinyl or Nylon) 16-14 59170 PIDG (Vinyl or Nylon) _59170 12-10 PIDG (Vinyl'or Nylon) e 22-16 59239-4 Nuclear 3 PIDG (Kynar) 59170 -=

16-14 Nuclear 3 PIDG (Kynar) 12-10 59170 Nuclear 3 PIDG (Kynar) 59239-4

\

(*

Noninsulated

  • e Copper Wire Terminal Series 1 Ranee, AVG and Butt Splice Series c Tool No. Nead No. Die Catalog No.

22-16

  • Solistrand 16-14 49900 None None Solistrand 49900 None None

,. 12-10'. Solistrand 8 49900 None None 8

Solistrand 69355 None None 3

6 Solistrand 69062 None None 4

Solistrand 69062 None None Solistrand 69062 None None 2

Solistrand 69062 None None 6 Ampower-4 69120-1 69099 69131-1 Ampower 69120-1

[ 2 69099 69134-1 Ampower 69120-1 s 1/0 69099 46765-2 Ampower 69120-1 2/0 69099 46766-2

."s 4/0 Ampower Ampower 69120-1 69120-1 69099 69099 46767-2 L 250 MCM Ampower 46750-2 L 300 MCM 69120-1 69099 46751-2 Ampower 69120-1 400 MCM 69099 46752-2 Ampower 69120-1 69082 i- 500 MCM Ampower 46754-2 750 MCM

  • 69120-1 69082 46755-2 Ampower 69120-1 69082

~

_ 1000 MCM Ampower 46757-22 .,

69120-1 69082 46760-2 t i

1.

Only enclosed (ring or rectangular type) tongue terminals shall be used.

Terminals with KEMA drilling and spacing shall be used when available.

2.

Each installation to verify cable size. If more than 750 MCM, use die catalog No. 46758-2 instead.

3.

For self-insulated applications within the primary containment.

b. Generally, at Sequoyah, AMP Product Corporation's materials are used for wire

~

sizes No. 10 AWG and smaller. AMP solistrand or equal shall be used for solid conductor termination / splices and may also be used for stranded conductors.

(

A2 - l M

SQNP M&Al-7 t INSTALLING INSULATED CABLES RATED UP TO 15,000 VOLTS Appendix B Page 3 of 3'~"

~/ APPENDIX B Revision B TABLE B-3 TERMINALS, BUTT SPLICES, AND TOOLS AVAILABLE i

FROM BURNDY CORPORATION l

We Te rminal Butt Rachet Type Hands Tools

' Hydraulic n Range, Catalog Splice Tools Y35, Series

AWG Series *

  • Y39, or Y46*

u 26-20 YAE-Nylon YSE M8ND N14ET-25 N/A f- 22-18 YAES-Nylon YSES MR8-83 Fixed N/A 16-14 YAES-Nylon YSES MR8-83 Fixed N/A 12-10 YAES-Nylon YSES HR8-83 Fixed N/A

, 22-18 YAD Bare YSV HF8-91 Fixed N/A 20-14 YAD Bare YSV MR8-91 Fixed N/A 16-10 YAD Bare YSV MR8-91 Fixed N/A 22-18 YAES-K-Kynar YSES-K MR10-G6 Fixed N/A 16-14 YAES-K-Kynar YSES-K MR10-G6 Fixed N/A

(-' . 12-10 8

YAES-K-Kynar YSES-K MR10-G6 Fixed N/A YAV Bare YSV MD6-6R2 W49 U-8CRT-1 6 YA or YA-L Bare YS or YS-L MD6-6R2 W7 U-6CRT p 4 YA or YA-L Bare YS or YS-L MD6-6R2 W8 U-SCRT 2 YA or YA-L Bare YS or YS-L .MD6-6R2 W10 U-2CRT 1/0 YA or YA-L Bare YS or YS-L MD6-6R2 W12 U-25RT 2/0 YA or YA-L Bare YS or YS-L MD6-6R2 W13 U-26RT l" 4/0 YA or YA-L Bare YS or YS-L MD6-6R2 WIS U-28RT 250 YA or YA-L Bare YS or YS-L MD6-6R2 .W16-1 U-29RT 300 YA or YA-L Bare YS or YS-L MD6-6R2 W17-1 U-30RT

, 400 YA or YA-L Bare YS or YS-L HD6-6R2 W19-1 U-32RT 500 YA or YA-L Bare YS or YS-L MD6-6R2 W20-1 U-34RT 1

750 YA or YA-L' Bare YS or YS-L N/A P-39RT 1000 YA or YA-L Bare YS or YS-L N/A P-44RT e

  • "U" dies are used in Y35 or Y39 hydraulic tools and "P" dies are used in Y46 s' hydraulic tools. "U" dies can be used in Y46 hydraulic tools with "U" die

,, adapters (catalogue # P-UADP).

I

1. Generally, at Sequoyah, only Amp Corp and Thomas & Betts Co. lugs and splices are used. One exception to this is 'the installation of Burndy's Trim Trio Connectors' for connections made to handswitches in the control L

room and auxiliary control room with Burndy's Trin Trio BANTAXATE round ,

connectors. In this instance terminations are made using the following:

Installation Tool Burndy M103-1 Crimper / Pins Cat No. RM16M-23D28 m.

Burndy Die Set Cat No. S3-1/ Sockets Cat No. RC16M-23D28 A

k s

m t a

l GE::ERAL I:lFORIGTIO:1 SQNP (Ilot inclusive) M&AI-7 Appendix C

, ' Figure 1 Page 1 of 6 Revision 8

.:~,. . . s, .

-..p.. *

  • P:DG

~ TERMINALS 7, . ,:--.-

11 E H .ilN A t] ,.g. .c.

< . l e { P:00 rE nm.=AL I ' I (trarE R TE nwNAL acr. - -

Wapf S Appf LIN Cnive:No onts WITH TONCUE Y i IEA 09 pn*strONFn At tHOWN ' -e- f ount 3 woe saneet

  • C g -

- .. .. .. - . . . _ _ ,, . _ .. " EQuat& INS.EA TICm te A AEL 1

~,  : .J._ ,c==:rpj; ~ . - - . - _ _ _ _ _ -

. .lNotN'Fai

  • 2~ .

levT T ?.Pt tCE I \ at maatt . , "#' , .s * * .* .;,

p n"e"s'r's'=A - .

tecswc e sr s.- , . . .

CE NTE R MALF 0F SPLICE 0 ARRE L IN

\

  1. \

v,-

  • 4'
  • CRivPINi ntf 5 *

, , , , ., 7",

,.,3.-'*

,C" ,5

~- ~ y . ,:p y d-

. , wws EsW wm:

nue N maazio sE Au -- .

,. y n.ees ut.onic ri. . . - .

F' cN sroCa ss visisLt. -

4 . . . Locarse gg g.e.. . ..g .* C - - -

Position St Au

  • TOW A sen sNOFNTF A

'*

  • B UTT SPLICES h twwaome.rmvAL SEAL 8 0 $ PUCE N00 "t** el- Wh00**0E*f

/

% [P A H A L L F l. Pi lC E I Ny -

.c. . e~

- 'Q whoowsoeoEur fl CLf 4TE R LPLICE s >

_ /

3 w

9 A p pEl lN casYriNG DrES ..

a{ h &d waa stop wSE STOP r'.

s scualswa samart

. *C" E QUAL 5 lh54EAflose SAmmEL

!, FIGURE 1 (Model h9900 modifications unit) -'

.a. -~m& Un nasr C R eta p

. .:.". .;. . m

  • t **M a l
  • J For .:ollatrand terminals and splices cn wire sizes -

State D 5FlaCES

?

2 f

o t,hrauc-h 10.

., ._,.i F ACE 3 7CP OP * - ,

s..

..'70.~~.

7..',

}. .

e que . J . ' .f i,d"A

  • F,or soltatrand long barrel terminals on wire sizes .

/ '

..T ,%=...w.-.. c . ,,. c d P 9,'

co~ i -

e-

..o.u,c c ,c .un. A.A u asemamme v.: c.-

,22 throue.h lb.

secano . : :-, mm -'.~'.7 C;- "

. ceivp *.. Statf 0 5POCE5 .

!!OTF.: Field to refer to vendor instruction /Mainte- ,u.....".?.  ;

f.'.I.sE.. i

.r . . E.,'.,

uuice/Inupection uheets cupplied with tools

. Q g-y -

m Ce n ,

$'s,,

aa re<1uired for specific or detailed infor- =;W' I

M.

sIMESE ammmmmm .- .;;.*3

.._ ,.. j:._.. _v.,2,.f. , <'. K rntion. .

Figure 2 t

FIGURE ;> ("olel 59170 AH) .

For PID3 vinyl, nylon, and radiation resistant terminals and splices on stranded

( copper wire st~.es 26 throuch 14.

i h O h4 8

' Appendix C  ;

SQNP Page 2 of 6 '

M&AI-7 Revision 8 L Refer to N & Instruction / Maintenance / Inspection Sheet IS-1542 Solistrand Crimp Tool r-TOOL WIRE STRIP LENGTH WIRE NUMBER RANGE .HNAL( T MAL R n BanM BUTT SNCE PARALLEL SNCE

,. MIN. MAA. MIN. MAA. MIN. MAX. MIN. MAX.

49300 11164" 13164" 114'* 9/32" #8 8

' g ,, g MOO U 6 88 7.

62 10 t /4" 9/32" 2 464478-1 *$4" 13/64" , ,4 9,32 5/16" 11132" 12 10 114 " 902"

( Refer to Ne Instruction / Maintenance / Inspection Sheet IS1610 N@ "T" Head Crimp Tool i,

TOOL NO. AND WIRE INSULATICN wee 5%P LENGTH HANDLE CCLCR PROCUCT CtAMETER CODE T mme.o was RANGE un. Man. . Mn w as.

, TWO DOTS 24-23 -

WHITE 3/16* FI3T 13164* 15164" TERMINALS AND SPUCES ALCO CNE DOT 22-16 511FC MC3. AH RED .~.

g. PLASTl. GRIP 13164* 15164* 114' 9132" RED AND 8LUE ISI RV NALS CNECOT 5 24 - N A TU AAL TLCH We v FLLOW S TEpt 5 8 3T 346* S ' 3 /' 3 . ,4-RCX3 TWO OOTS 267) -

NArbM LCtCR WsvMerE STA+E 3s t 6 ' 7t ?T i)M' igru

j. RADATION CNE DUT 2216 -

NATURAL CCLOR Wf RED STRIPE 13164* 15s64* 114* 9 tar PES!STANT TERMINALS CNEDCT 2524 -

NATURALCCLCR WlVELLOW STRPE SI3T 3116* 513 7 Mi?0 MOD. AH 3sta-A30 SPLfCES 22 16 N ATURAL COLOR WIRED STRIPE RED AN0 8LUE TW30 CTS 13164* 15164* 114* 9132*

F 16 14 -

NATURAL CCLCR Ws BLUE STRIPE O CW

  • M mEOWsGdE E N e AND ONE DOT M w no pio ns pE O B AP.O nao ., c~s- n0 SeoW,w re e No INSULATION 22 CW l10 EEO WtGAt EN E ANO ,

23 Gui 910 9 g,7 _ _

. RESTRICTING GE D Ws RE D BANO

!?!F3 MOO. AH NYLON 13 0$6 .110 REDWswHITE BANO 1

6. DED ANO DWE NW 16 .063 .133 BLUE WieLUE SAND COM 14 .078 t 0 6tLE WsGAEEN BANO

(-

Refer to AMP Instruction / Maintenance / Inspection Sheet IS1261 P

7 YCOL HANDLE TCOL WlRE want strip L ENGTH PRODUCT COLOR AND WIu" NO. RANGE T"""* **

COTCODE RA l E "'*' "' '"' ' " '-

l, gay 3 $92 M .2D R 1210 YELLCW PICC VINYL YELLOW 12-10 Ah0 NYLON ONE COT tS14 HD

' I"'

Sf16* 11132* 11132- 31a*

T E RMIN AL '

CR$ PUCE .233 CNLY N

12 10 .230*ltaa N ATURAL CCLCR WiVELLCW STRIPE YELLCW 59239 4 1913T 314*

pgg gg

[ TgpM.N ALS & OM W Sta

.15dy* M AX.

Sil6* 19 83T j SDLfCE S "E N ATUR AL CCLCR WISLACM STRIPE ~ ~

+

noc INSULA flC's i AO YELLCW 19239-4

. R E ST RiCTING ONECOT 3 ' 8' 8 3'3T =

TE NALS i N NO

~51-T

- - _ - _ ,. - - - _ _ - . ._ m,

3 m .

l SQNP M&AI-7 Appendix C d

AW CORP.

Page 3 of 6 Revision 8 7

l "B"= Wire Strip Length = Wire Barrel Length SOLISTFA'lD -

(1) Generally "B"+1/32" min to 3/64" max 2 I .,.

is acceptable wire strip length, ,,,,,,,,t ,

t I,

(2) Otrands not cut or nicked. '

-s-a BUTT SPLICE oam,r tsf <mr aNo.amovesTM

'~'

(3) Insulation undamaged. 1.a. r, ',',

j ', BUTT SPLICES PIDG TERMIN ALS l twnowmeurat moe 't* -e- **otM motNT .c= .g. .g.

,~ statao sruce / l e g moe

(

g, . ,

M-i tFM" was stor l lI{Til s%i l -

rico msutance

, was srop masurme e-touats was sanset .

-t* tQuats was saanst c-Eounts msutaten samast

~

c gsmsutano.

EUR:lDY CORP. (NOTE: These pins and sockets are normally used for field cable terminations at handsvitches) ,

pins .

f I - -

L

,,,,,.... cm ...

..mi o .. ...

i......i.... < s no i .!

i

...,,. - ,='.

n.:a:..,.,. . .,;'. ~ ,,,,

- . .u. , ,,.

cu n't;""t,71.'n - - '"""'"a 2 2a "2 ai "a'"' 5" 5'"

^ .

sockets 5.a.' .

'~."-'.~

...'s. ."c..=.

c.

. . . .. ., ,. , , . ca.. ,:

.~

.,., t "

l, = ,;g

~

,ly,

't.:-

1 I O*?

Lt 1"

cu R'i$",",171'M i

- senu inn ni n act naarn su son ~a a *

{

ACCEPTANCE CRITERIA e

(1) Verify proper pin selection and crimp die selection (see tables above) t (2) Otrip able insulation per the above table (Note: Cable strip length may be .

+1/32" min to +3/64" max) and verify no strands are nicked or cut.

(3) Insert pin in tool and insert stripped wire into pin--exert slight pressure to ensure wire is bottomed out in pin and that pin is fully seated in tool.

( 1 (4) Crimp pin and verify crimp is properly placed on pin and that pin is securely crimped onto wire.

NOTE: This section is in reference to Burndy Corp. pins and sockets, but may be used in con,) unction with applicable vendor information.

t 6._

u- ,

i 1 SQNP i enE-IUSULATED DIAMOND CRIP (PDIG) ACCEPTANCE CRITERIA sustnucTiosmainresaucensspection swear

- Page 4 of 6 @

- Revision 8 -

[ ACCEPT l (REJECTI I

i. A DOT CODE (t OR 2 DOTS) MUST APPEAR A*

ON ALLCRIMPEDITEMS /

g f*. /

ff f/ e+ 1 h 6  :

t e

e , a. mg q/

h' tk'Ji5./

i g7g,y 2

$, ~{---

=

% g~,h~,.JD ,

8 r

PIDG  !

( TERMIN LS _x x x -

3 l$  %

{.

- h - -

-K'Q ' " 'Ml!

9 5 3

~

.: c

////

' T sw # wm %;

smm;/ w wr n y .. ao We

~

. . -w . -

g 7 8 5 7 8

{

_--~ n g;;; g &g n

- =~= -=== -

_ ,. . . . =.

~

i

.m r9

^, ,_.'-

rs -

snmn n .vu Q L_ p - -.-:gx 7 7 n / u /

c' PIDG 6 3 BUTT SPLICE \ S WIRE B ARREL 8 ;ihtb

/

4 h L Ce INsOLArtoN 5 s[N S

I

(

  • '.tA 2 .'. t '.JtNJE.,W_ Q- -

"Ym ' . , L ..s. n L - . . -

h Wire insulation extruded. (Insulation crimp too tight on

\ PtDG terminals and spilces) See Paragraph 2.3.

E margurezaaruers m'sasrLsesw c.//r. sweet.ana rs;t.taans a Wrong dot Code and Color Code combination. See Figure 2.

h Insulation barrel is in firm contact with wire insulation. Wire size is not within wire range stamped on terminal

{ tongue or splice.

) h Correct color code, dot code, and tool combination.

3 @ Crimp not centered on wire barret. (Terminal was not Wire size is witnin were range stamped under terminal y tongue or on center of splice. butted against locator. See Figure 3.)

j 6, h Cramp centered on wire barrel. End of conductoris not flush with or extending beyond end of wire barrel. (Check forcorrect strip length.)

i h End of conductor is flush with, or extends beyond end of h Excessive flash or extruded Insulation, (wrong tool, ter.

terminal wire barrel.

mmal, or spiace combination, or damsged dies).

h End of conductor against wire step of splice, or at least flush with, or extended singhtly beyond wire barrel. h Wire insulation entered wire barrel.

8 Nicked or missing Conductor strands.

' Wire insulation does not enter wire barrel.

, h No nicked or missing contfuctor strands. , g ,, Splice was reversed in dies (tools locator was not seated in window inderrt of s plice).

  • e Fi mv a 't
f. SQNP

M&AI-7

, Appendix C Page 5 of 6 SOLISTRA'ID ACCEPTANCE CRITERIA

(

l INSTRUCTION /M AIN f EN ANCE/lNsPECTION sH E ET

~~

l ACCEPT l l REJECT l r-4 6

-a TERMIN A LS 4 s, )

('- 1 -6, _.,.

, I '3L

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3 SIGHT s HOLE 4

OR PARA LLEL SPLICES I STRAP - '

4 , s TYPE e '

  • 4 - -

- 4 .

  • s
  • p ' -

5 \,

9g BUTT SPLICES 2 s, '

@ Crimped off end of splice or terminal.

@ Crimps centered. Crimps may be off center BUT

@ Wire size being used does not match wire size NOT OFF END OF WIRE B ARREL.

stamped on terminal, splice, or tool.

@ Wire size being used matches wire size stamped on

. terminal, splice, and tool. @ Wire not inserted far enough in terminal or splice.

End of wire must be visible through inspection hole

@ Wire is visible through inspection hole of butt splice.

, and entends beyond end of terminal wire barrel. of butt solices, and extend beyond end of terminal wire barrel.

@ Insulation does not enter wire barrel. @ insulation entered barrel of terminal or splice.

@ On parallel splices, bare wire ends must be flush i,, CHECK FOR INCORRECT STRIP LENGTH.

with orextend slightly t:eyond end of barrel.

@ Excessive " flash" on terminal or splice indicates wrong wire, splice, or tooling combination was used.  !

@ Nicked or missing strands.  !

I l

Figure 4 4.3 VISUALINSPECTION

. .. _ , , . PirTEol (a) Visually inspect the tool for missing pins or retaining _ , . , 7* # 'yj'~i .r rings, then operate the tool and note the return action "*v; ,'- > * '

l

...-'.J"'

' of the spring-loaded handles. If parts are missing or CHIPPED ",'*Y 1

  • " ' ' ~ " ' " ' '

spring in handles is defective, refer to Figure 8 for EDGE . * * ' * ,' ~

)

customer replaceable parts. .

y (b) Visually inspect the die closure surfaces for flat- , '.

tened, broken, pitted or chipped conditions. Al-q FLATTENEO '

though dies may gage within permissible limits, worn AREA or damaged die closure surfaces are objectionable *

?. J ' '

  • and can aflect the quality of the crimp. Examples of BROKEN '7 possible damaged die closure surfaces are shown in . CORNER . ..

Figure 5. .,

Figure 5

, (.

r

r. .

SQNP M&AI-7

- Appendix C Page 6 of 6 Revision 8 THOMAS AND BETTS CO TAN.

' " ~"*

ACCEPTA' ICE CRITERIA AND

' ' RELATED INFORMATION (Not Inclusive)  :

( ,,,& ,, s, ,.. i . w ..

L ' '"

u c~

c g a-.= p"c " =

8,;

,,; , (1) Verify proper terminal used for ss

  • 0 u na *M ** ma n wire size.

F< 044 I*

4 t$177 24 4 f.' 13858 Illi? 29 -

  • .a

!<e I mn n (2) Strip the insulation from the I.".*

E '"

lU" ",, cable (vire strip length 1/8"

$"*i. IUs to 1/h" exposed wire or cale.

[ i t.

==

',j i

,, per design std. drawing).

t.

  • .w. um mis u t c.'s

{',

see 28 t

Gb ma two

.i se (3) Verify strands not nic' ked or cut.

13457 asian s.m H sa. mu umu a L. E E'"

s tassu m3 . (h) Verify conductor botto=s out in m n .E. o id ln'l N' terminal.

nu ini

+= u .. mit s.. .

U 2$ U. 'UU lR, (5) Verify proper die and tool are a *7, lns "O used and crinp per vendor Ea"= Em l"U instructions.

, mn U.l."

(6) After crimping remove all sharp EXAMPLE OF DIE USE edges as required' .

J Refer to the instruction sheet enclosed with each connector package for detailed installing information. This includes cable strip length and the propee number of compressions to be made with each installirig tool.

AH T1B compression connectors are handed to indicate location c,f Mre'evise T is ..an sus des.

the die on the connector for com- g,,,l,s,tsson Com ssen pression. The die code number is

  • o AL cu also marked at each compression ,

locatiort. j g,g'0, 08p ya i

When usine T1B hydraulie tools, 13642. TDMIS, and 21940. posi- m g/

l/, / / s /)

tion the die over the markmg ("G6 f j y tst C '"

Die"in this examples beginning at 2nd Corcore s

/ ""

the end nearest the 1ongue and Haas Tws. w Mreesidae workmg toward the open end. Toeis .un neer d n.

In the abase example, four tempressions navid be recluired for the 13G4J and T!! Mil t...is because os* half die

f, wwlths. Only twn compressions wnuld he r. quired with the 21960 dies and " full' dies of the IJtist and TDMIS

, tesol+ If h md inois (TBMS. TBMG. and TBM81 were used in this esample. four compressions sound be equally I

spaced actn s the harrel beginning at the end nearest the tongue and working toward the open end.

Dee widths vary according to the tool used. The instruction sheet accompanying the connectors should be followed.

r" l

P 9

.. P l

  • r I

c .

l' SQNP M&AI-7.

Appendix D Page 1 of 2 Revision 8 INCORE THERMOCOUPLE CONNECTOR ASSEMBLY 1.0 SCOPE  :

This instruction contains the procedure for completing the electrical

- (, connections for the incore thermocouples including installation of the

~

extension wire connector.

NOTE:

r-All insulation resistance (IR) measurements shall be made using an ohameter capable of measuring resistance up to 10 10 ohms with a maximum applied voltage of 100 10V dc.

2. Check all extension wire connections for proper polarity and workmanship.

I Extension wire is to be in accordance with W Specification Sheet 195A785.

3. Slide a 3" piece'of WCSF-115-N onto the extension wire. Install extension wire connector (see Figure 1). Apply LOCKTITE 271 to the screw threads to prevent loosening. Remove all traces of epoxy from the blade surfaces.

I NOTE: Do not attempt to terminate the extension wire shield inside the colinector. The shield must be terminated'(ungrounded) outside the connector. '

p

4. Shrink the heat shrink into place per Figure 1. Slide a 3-1/2" piece of RNF 100 and 3-1/2" piece of WCSF-200-N heat shrink onto the extension wire.

-5.

' Connect thermocouple connector to the corresponding extension wire pair, verifying continuity to the corresponding reference junction terminals in the process. Measure and record IR (with extension wires s disconnected from reference junction terminals).

IR must be greater than 1.9 x lo ohms at 100 volts. Verify results and signoff-inspection on Attachment III, Data Sheet 1.

6. Shrink the heat shrink into place per Figure 1, signoff Raychem Installation on Attachment III,-Data Sheet 1.

(,

)' 7. Lay down the extension wires. Signoff on Attachment III, Data Sheet 1.

c 8. Record test equipment used on Attachment III, Data Sheet.1.

b.

j THERMOCOUPLE WIRING INFORMATION POSITIVE NEGATIVE INSULATION A TYPE CONDUCTOR CONDUCTOR JACKET COLOR -

Copper- Copper (Blue Blue Constantan (Red Constantan Insulation Insulation)

% 1ron Iron (White l

Constantan (Red White I Constantan Insulation) Insulation) or Black i Chromel- Chromel (yellow Alumel (Red Yellow i l

Alumel Insulation) Insulation 1

( "

! k- -5/,-

( ( '

a w

'4

, - - - - , - . . - . - + . - , - -.,--.-- . -,-_ ,,,-- , < , -.7_----. , ,-w, --,,-,,n_, ., ,-

s ,

( SQNP M&AI-7

^ Appendix D '

Page 2 of 2

, Revision 8 1

BUSHING -INCORE THERMOCOUPLE CONNECTOR ASSDIBLY INSTRUCTIONS. PAGE 2 of 2

~ -

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r O ~~ T/C CONNECTOR .

(FEHALE) -

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(HALE)

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EXTEMS10M WIRE -

THERH0 COUPLE ~

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r SQNP 4 M&AI-7 EXCEPTIO13 TO THE REQUIREMENT Attachcent I l

  • Page 2 of 3 a.> l Revision 8 c) Pi @

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a

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k- Where space vill not

  • O (o No conductor tags accomodate the use required g 2rcm of a regular cable-I*

conductors are tag, a conductor color coded and R , 9 tag may be substituted. color code is

'g__._,'

i specified on drawing.

~

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W \ l LotaflC4 CF facs W q

LOCA!!C4 QF f4;1 s

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if onductors are arens not color coded, O j vol r coded but i

but color code is tt color code is

, [=&q cpecified on 2rew ] - specified on *

t. , drawing, these (= , ,q 9

drawing, these

'  %-h conductors must be t i

conductors must tagged--conductor $

k. be tagged, 2rens identification on one side and colot 2rcin

~ '

W on back.

Locaf:C,e, ,,cs W L004flC4 CF iscs

-5 9-r L '

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8 4

SQNP c M&AI-7

-{,u+ Attachment I

. Page 3 of 3

-Revision 8 rg.,

4 l

l LABELIl!G OF TEP3!ETAL BLCCK STRIPS I

The intent of this appendix is to' clarify acceptable labeling of terminal' block c Labels must be clearly legible. strips in accordance with TVA EN DES issued or EN DES ap Examples (1), (2), and (3) as follows:

J.

I AS SHOWN ON DRAWII!GS

(TVA or Vendor) AS E4YSICALLY IABELED IN TE FIELD Acceptable
f. TB-XXXX TB-XXXX Preferred 1 T3-XXXX AlBCD 1 2 2BCDA AlBCD 2 ( ED {

3 lB C D A 3 23CDA 3

4lCDA6B D ) BCDA3 4

p- 5 DA5BC CDA6B 5

6lAhBCD DA5BC .

6 (1)

@ AhBCD r (3)

ACCEPTA?;CE CRITER'.A f 1.

labeling is acceptable if it is identical to either , or (3).

example

, field (1), (2)W i

2.  !

When the terminal field labeling must strip be in labeled on the drawing as shown it:

, drawing. identieni to the respective lubcling as nhown on theexample (2) or (3);

s required to resolve..this condition.ternen 711screpancies are noted,s a drawing change o 3

W en a terminal strip is shown on a drawing in a position (vertical or horiz it may be physically mounted in.the field in a different position. ontal) j p-This is

  • j l terminal block and is 'slectrically connected in the on the drawings. proper wn on e sequenc t

u Examples- (h), (5), (6), and (7) as follows:

m 1 - '

4 T

k_T E

- OR __

3

_x _ 2 -

CR _1 2 3 h OR 4~ 3 2 1 Ad 1 - -

-(4) (5) (6) '

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24 i G 213-C51 I I SQNP .

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range OP Spl8G Paat a0 E FACTOR 3084040 amB 30810a2.

oas T

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. l SQNP M&AI-7 r

Attachment II Page 10 of 12  %

Revision 8 P

CONNECTOR AND FIITINCS ELECTRICAL DESIGN Shielded Cable Termination Ground Sensor Current Transformer Application STANDARD DS-E12.5.6 l I

/

OREAutR ft#MinALS

- f/

f STRESS j f Coat f

GROUND SENSOR CUR. TRANSFORMER.

Win 00w TYPE SEE NOTE 3 eie

- i eI 8l l f I e l

CRous0 8UI e CABLES TO LOAD

/ /

CASE A LOAD CABLt3 LEAvsnG tifMER TCP OR 90Tf0M 0F SwifCMGEAR

.CABLt3 LEAvluG 90TTOM SM0wn r ROTES.

1 ALL LOAD Cm8LES MUST PASS THROUCM TME WINDOW 0F TMf CURRtaf TRass.

FO MER.

2. WMEs CURREnf TRAaSF0 mte IS MOUnit0 AS In CASE A, ftMtRATE CASLt3 PER .

STAuCARD ORawinG OS-E12.5.7 12.S.4 OR CONSTRUCfl0s SPECIFICatt0s G.s.

3. wMin CAOLES LFAvt TOP OF SwlTCMCEAR, CURRt47 IRAESFORMER wlLL Og A80VE Ott Atte Ttman ALS. ,,

N l s ,

.9  ?

I

. "li

' THIS DESIGN STANDARD SUPERSEDES Ihl STANDARD ORAWIMG 3081075. caiciu A t isSut: 1-5-77 = a a - '

h I { [p nrvestoN NO:

Io -

oATE REYlSED. * = = *

= .

J

SQNP M&AI-7 Attachment II F Page 11 of 12 -

Revision 8 .

' C0hWECTOR AND FITTINGS ELECTRICAL DESIGN Shielded Cable Termination STANDARD DS-E12.5.6 Ground Sensor Current Transformer Aoplication

/

BRE AXER TERMin ALS STRESS

{ / Cout t .

GROUno Sin 30R CUR. TRANSFORMER, win 00w TTPt. Stt NOTE 3 11 II II I I V

"o 4

UNO CASLES N TO LGAD

/ /

CASE B LO AD CABLES LE AvinG tiTMtn TOP OR SOTTON OF SwlTCHGEAR CABLES LEAVisG 80TTOM SM0wn

/ n0TES:

g 1. ALL LOA 0 CA8LES MUST PASS TMROUCN THE win 0OW OF TML CURRini TRAus.

  • FORMtn.
2. TERMINATE CAttt$ TML SAME AS Cast A, EXCEPT 041T TMt GROUno STRIP AT .

TME STRESS Cont AND INSTALL IT Os Tnt LOAD Slot 0F TML CURRint Trams-FORMER RT CUTTING THROUGM TMt CUTER JACatt Ano CAREFULLT $0L0ttluG Tut GRoun0 STRIP TO TME SMitLO.

3. wute Caelts LEAvt TCP OF SulTCMCCAR, CURRtui TRANSFORMER WILL 8t Agovt OttattR TERMisALS, THIS DESIGN M ANDARD SUPERSEDES o .c w n issur- 1-5-77 STANDARD ORAwlMG 3081075 - 71 * .r v,5,ou no.

O A tt ogve%f O I

=

, SQNP M&Al-7 Attachment III -

Page 12 of 12 Revision 8 CONNECTOR AND FIITINGS Shielded Cable Termination ELECTRICAL DESIGN Ground Sensor Current Transformer Application STANDARD DS-E12.5.6

/ /

( Cattts To LOA 0 CountCT TO G90080 tus - E

  • ggg l  :
1I GROUNO Ste304 1

Cut IFmt l WlE00w TYPE l I f,.

~

3@ SUS 70 S#tAtt4 >

7t#41n4L3 -

]-

_f f l

l n

I.. GROURO Sin 30R w

CUS IFMe WlE00W TYPE %

88 8 I Il 8 I I : s s

= 8 Uu0 l r CA8Lt3 m

  • TO L0a0

/ f- _

CASE C -

LOAD CatLES LlavisG 80T= t0P an0 sorron Or swirC=ctas a0fts:

s.

wate t040 Caetts Ltavt reon e0rn THIS DESIGN STANDARD SUPERSEDES STANDARD coup sous CUnnt nuss'emos DRAWING 3081075*

2.

"'" ** "*" " ** ""'*"* "*'""'"* ~ ' '

e 'Ttemte4TC Cattt3 TME 3amt AS .

CA$t A.

"'*"0"""

e,a s e o w ...* * *' *N; 4

? ..a .

^

! t . . LA8tMIhr -SPt. ,iA .

.QNF m .:

Attactment III - Data Sheet 1 M&Al-7 Attcchmer.t III

  • O 5.1.1--Cable No(s). Page 1 of 3 or Panel Wire No(s). Revision 8 5.1.4-Meter No./Calib. Due Date Continuity Checks Acceptable 5.1.5--Megger No./Calib. Due Date Megger Reading MJ2.

/ / / /

Inspector Date Inspector Date END 1 _

END 2 IN-LINE SPLICE

, 5.1.1--Reference Drawing (s):

Location (s): ___

Envirornent: O Mild O Harsh OMild O Harsh O Mild hHarsh 5.1.6--Criging Tool No.:

l Calib. Due Date:

5.1.6-Soldering and/or Crisps / / /

Acceptable Inspector Date Inspector Date Inspector Date b 5.1.7-aaychen and/or Taping / / /

Acceptable Inspector Date Inspector Date Inspector Date Check Appropriate Block (s) O Raychem O Tape O Raychen O Tape O Raychem O Tape j 5.1.6 and 5.1.8--Cable or Panel / __

/ /

Wire (s) Properly Inspector Inspector Date Date Inspector Date Identified. Tie-Wrapped, and Tenninated/ Spliced MTR in. MTR in. MTR in.

For in-11ne splice, Cognizant Engineer shall initial and date verifying the respective cable card.

j has splice location data entered on it per 3.1.6.2(7). /

4 Cognizant Engineer Date i REMARKS:

Check block at top left hand corner of page if QA inspections are required. Workplan/ldt Partial signoffs will be made in REMARKS section and may be continued on back of data sheet.

Page i Ol71E a

1

e-- -

e t , ,

s - .

SQNP M&AI-7 5.1.1(e) C Nild O Narsh M&AI-7 Attachment III

  • h Check block if QA inapectione are required. INTERNAr. WIaING CnANcES Page 2 of 3 ATTACHMENT III - DATA SHEET 2 Revision 8 CHANGE FROM (5.1.1(b)) CHANGE TO (5.1.1(b))

Panel Panel Panel INSPECTOR SIGNOFFS (INITIALS AND DATE AS REQUIRED) and/or ' Panel. Continuity (5.1.6) (5.1.6) and/or and/or _ and/or Checks

  • Wiring Properly Terminated Compt. __ Compt. Compt.

Crimo Tool No. Soldering and/or Secured. Identified, or No. TB Pt. Wire I.D.

Jogt . (5.1.3) Calibration Crimes Acceptable 78 Pt. TB Pt. Wire I.D. TB Pt. (5.1.4) Due Date Removed (5.1.8)

End 1 End 2 End 1 End 2 g (1)

O (2)

O

(3)

O I s 4 =

t (4)

O -

(s) 4 O

No. MTR (laches) Wire Type Contract and/or (5.1.1) Loestlos and Reference Drewlags (5.1.8) (5.1.2) Beel Nos. REl(ARKSt (1)

(2)

(3)

(4)

(5)

$5.1.4) Noter No./Cellbration Due Dates j 0202E Page 9

O SQNP f M&AI-7 l- Attachment III Page 3 of 3 WP or WR #

Revision 8 Page of DATA SHEET 3

,. 6.1 Cable or Cable Type Panel wire number Size (AWG or MCM)&

Number of Conductors

-I 6.1 -Location of repair r Z ad tr or comp 6.2.1.1 Damaged area trimmed

/

6.2.1.2 and cleaned Inspector Date 6.2.2 Jacket repaired per option number Requirements for the above option number verified by /

l.' Inspector Date 6.2.3 Shield repairs completed and verified by /

Inspector Date Meter number / calibration due date / .

de resistance value obtained O/ft 6.2.4 Insulation repairs made per option # 2 verified by /

Inspector Date 6.2.5 Repairs for braided type covering verified by /

Inspector Date 6.2.1.4 Meter number / calibration due date /

Continuity checxs acceptable /

Inspector Date Megger number / calibration due date /

Megger value obtained: M0 Megger checks acceptable /

Inspector Date

, 6.2.1.5 Cable or panel wires properly identified, secured, and terminated End 1 / End 2 /

.. Inspector Date Inspector Date *

, End 1 End 2 Ref. Drawings Ref. Drawings End 1 End 2 Location Location

_ Remarks:

~

a n ,,w-- - - , - - -- --

, , , - - - . - - , - - - + - - - - - - - - - - , - - - , , , -

~

r -

r , i r ,

t 9 -

SCI M&AI-T o ATTACID'E!!T IV +

se 1 of 3 SPLICIIIG/TER*4INATIOIi CF SI!!GLE C0!!DUCTOR CABLES Reference SD-E12.5.6, SD-E12 5.8 and COMPAIII0Il DRAWI!13S 1/h" ninimum overlap of Raychem Shim Raychem WCSF-N overall sleeve beyond WCSF-N 2" min.

end of shim (Optional) Overall Sleeve (as required)

.- but recommended a e Cable Jacket

/'il i f II f I I I I WI I i i Iii i I Li i l l l l l el ll l l l l l l [ []

MT A \ \ \ \ \ \ \ \ M \ \ \\l y -

S  :

0  ?

i

? s U -

,Nv i i s is in>> i sr is i ei s i .i s, ii iii s in! ie I ii,e i isi , , , ,,,,,,,n

)

I r I

j i .

, M

= 2-1/k" min. y -A%  ; 2" min. y I

[

\ \Ri l l

  • See note 1. -

See note 2.  ;

e NOTES: .

(1) It is considered good practice that the conductor 'l/k" min.ontothebraidhdtypejackettohold extend beyond the end of the connector between it in place. '  ;

+1/32" min to 3/6h" but for the max, allowable .

l dimension see TABLE D on SD-E12 5.6 (5) Overall sleeve length will be determined by field depending on length of; connector used, actual (2) The dimension A vill be determined by the type dimension of conductor extending beyond connector and brand of the connector used by the field. (see note 1), number of shims used' overlap ,

(3) The above figure depicits the use of a cable dimensions, and notes frQm design drhvings and/or

' approved sketches or instructions.!

shim due to differing cable outer disaneters. ' i The use of cable shims are not always required and sometimes multiple shims are needed. Refer .

to notes SD, SE, and SF on SD-E12 5.6. l l l l l (h) For cables with a braided type jacket (i.e. asbestos)  !

remove braided jacket. Raychem sleeve shall be in ' '

contact with the primary insulation (i.e. silicon) for 7 % g.!S the 2" min. seal length requirement and overlapped f i s'.$

$ E is g  ; ,

j g. - g .',

i i I,

oo3

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ATTACHMEUT IV Page 2 of 3 \ f7%*$

3% C $,

MULTICONDUCTOR TO MULTICONDUCTOR

5. n g ', .

O o <n REF SD-E12 5.8, SD-E12 5.6 and Companion Drawings m]$

2

~ 2"*. min '

B a'  ; RAYCHEM WCSF-N Typical Each End (See Note 3) OVERALL SLEEVE e

.. ....x .s m .. ,

w.u ,m

, s

.v s_ s s s s s s s s s s x .. . . ,

i I g . ,

, h

. ., ...... . =. . J Bare Drain Wire See Detail A

' (If applicable)

RAYCHFM WCSF-N NOTES:

O I N d (1) It is considered good practice that the conductor extend beyond the end of the connector between +1/32" min. to L. 2" min - -A - . 2" min i +

+3/64" but for max. dimension see TABLE D on SD-E12.5.6.

See Note 1 (2) Dimension A vill be determined by type and brand of e See Note 2 connector used in field.

DETAIL A (3) Dimension B will be determined by field to avoid physical buildup of individually spliced conductors.

1 (h) For asbestos type covered wire, remove asbestor jacket.

Raychem insulating sleeve shall be in contact with the primary insulation (i.e. silicon) for the 2" miq.

requirement and overlapped 1/4" minimum onto the asbestos jacket to hold it in place.

(5) Staggering of splices is recommended to avoid physical buildup. The combined area of the spliced conductors chall not exceed the application diameter rance of the Raychem WCSF-N overall sleeve. Refer to' TABLES A or B of SD-E12. 5.6.

\o .

SQNP M&AI-7

[ -

Attachment IV l Page 3 of 3 NOTES:

Revision 8 (1) Length of conductors X will be ' deter =ined by the I number of the conductors in the multiconductor cable and by field in order to avoid buildup of splices  :

to be made. ~

(2) The shield extension or replacement may be copper -

- ^

braid slid over into place as shown or the shield material of the type cable being used may be vrapped l> around the splice area as shown. The length will be 11/2" ,+ 1/8" on each cable end plus the length of

, ~

the splice area =B.' As a aid to the field, the area I- -

where the original shield is folded back and where the copper braid (or new replacement shield is vrapped) overlap field may use a vrap of Scotch' 33 or To to physically hold this in place while the WCSF-N overall .

sleeve is placed and shrunk into place.

(3) It is considered good practice that the conductor ext 2nd beyond the end of the connector between

+1/32" min. to 3/64" but for max. allowable dimension cee-TABLE D on SD-E12 5 6.

(4) Staggering of the splices is recommended to avoid physical buildup. The combined area of the aplices conductors shall not exceed the application diameter range of the Raychem WCSF-U overall sleeve. Refer to #

TABLES A or B of SD-E12 5.6. ,

(5) The length of splice area =B will be determined by the length of the butt splices =A, and by the field to avoid physical buildup of the splices.

Chielded Mu.Iticonductor Splice Refer to SD-E12 5.6. SD-E12 5.8. and companion drawings l Cable Jacket bI

  • Bare Drain Vire 7 V (it applicable) ,

\  ; -

,I Insulated conductors i

l _

fl1/2"+1/8' ~

3hte1J Folded Back around Cable Jacket ygg g; Shield Extension

-c

[~0"e*;;ndQ/:

_-g_.__~ _-

_ _ _ _ ' : '. ' n . . - - .

h-For splices refer to i .I SD.E12.5 6 and SD-E12.5.8 5 --

--. y

. =

) u _ _A J_ _ t' c, m . _ , m_. . _ ._.a - - ' ' ' -

2" sta - 11/2" *1/6' s .11/2"f)/3.-- 2" ain e = Jg.

r O e

. _ . - - _ _ _ _ - _ _ _ . _ . _ _ . . . _ . _ _ _ . _ _ _