ML12018A216

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Attachment 6 - WEC Non-Proprietary Document EQ-QR-68-WBT-NP, Qualification Summary Report for Post-Accident Monitoring System (Pams), Revision 0 (Letter Item 4, Sser 23 Appendix Hh Item Number 108)
ML12018A216
Person / Time
Site: Watts Bar Tennessee Valley Authority icon.png
Issue date: 02/28/2011
From: Jurcevich N
Tennessee Valley Authority, Westinghouse
To:
Office of Nuclear Reactor Regulation
References
EQ-QR-68-WBT-NP, Rev 0
Download: ML12018A216 (184)
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Text

Attachment 6 WEC non-proprietary document EQ-QR-68-WBT-NP, "Qualification Summary Report for Post-Accident Monitoring System (PAMS)," Revision 0 (Letter Item 4, SSER 23 Appendix HH Item Number 108)

  • Westinghouse Westinghouse Non-Proprietary Class 3 Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

EQ-QR-68-WBT-NP, Rev. 0 February 2011 APPROVALS Function Name and Signature Author Natalie R. Jurcevich*

Principal Engineer, Equipment Qualification I Verifier Richard A. Lodge*

Senior Engineer, Equipment Qualification I Reviewer Stephanie L. Smith*

Project Manager, Common Q PAMS Approver Gary G. Ament*

Manager, Equipment Qualification I

  • Electronically approved records are authenticated in the electronic document management system.

WESTINGHOUSE NON-PROPRIETARY CLASS 3

© 2011 Westinghouse Electric Company LLC All Rights Reserved

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

LIST OF CONTRIBUTORS Template Version 2.2 EQ-QR-68-WBT-NP, Rev. 0 i

Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

REVISION HISTORY RECORD OF CHANGES Revision Author Description Completed 0

Natalie R. Jurcevich Proprietary markings added to EQ-QR-68-WBT, See EDMS Rev. 0-B. This document includes comments received by Tennessee Valley Authority (TVA) in project letter WBT-TVA-1630 (Reference 55) and WBT-TVA-1665 (Reference 56).

DOCUMENT TRACEABILITY & COMPLIANCE Created to Support the Following Document(s)

Document Number Revision N/A OPEN ITEMS Item Description Status None.

EQ-QR-68-WBT-NP, Rev. 0 Hi Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS

'Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS Section Title Page SECTION 1 SECTION 2 2.1 2.2 2.3 SECTION 3 3.1 3.2 LIST O F CO N TRIBU TO R S.......................................................................................

i REV ISIO N H ISTO RY...........................................................................................

ii TA BLE O F CO N TEN TS.............................................................................................

iii LIST O F TA BLES..................................................................................................

v LIST O F FIG U RE S.....................................................................................................

v A CRO NY M S AN D TRA D EM A RK S....................................................................

xi G LO SSA RY O F TERM S............................................................................................

xiii REFEREN CES........................................................................................................

xv IN TRO D U CTION......................................................................................................

1-1 EQUIPMENT IDENTIFICATION AND QUALIFICATION

SUMMARY

.............. 2-1 EQ U IPM EN T ID EN TIFICA TIO N.............................................................................

2-1 Q U A LIFICA TIO N M ETH O D....................................................................................

2-7 SU M M A R Y O F Q U A LIFIED EQ U IPM EN T............................................................

2-8 EQUIPMENT PERFORMANCE SPECIFICATION............................................

3-1 SA FETY FU N CTIO N.................................................................................................

3-1 PERFO RM A N CE REQ U IREM EN TS........................................................................

3-1 EQUIPMENT QUALIFICATION REQUIREMENTS...............................................

4-1 EM C.............................................................................................................................

4-1 ENV IRO N M EN TA L..................................................................................................

4-4 SEISM IC......................................................................................................................

4-6 TY PE TESTIN G PERFO RM ED.................................................................................

5-1 G EN ERAL...................................................................................................................

5-1 EM C TESTIN G...........................................................................................................

5-3 ENV IRO N M EN TA L TESTIN G.................................................................................

5-5 SEISM IC TESTIN G....................................................................................................

5-13 ANALYSIS PERFORMED AND BASIS FOR QUALIFICATION.......................... 6-1 G EN ERAL...................................................................................................................

6-1 EM C.............................................................................................................................

6-12 ENV IRO N M EN TA L...................................................................................................

6-12 SECTION 4 4.1 4.2 4.3 SECTION 5 5.1 5.2 5.3 5.4 SECTION 6 6.1 6.2 6.3 EQ-QR-68-WBT-NP, Rev. 0 lii Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0

°°° Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

Section Title Page 6.4 S E IS M IC...........................

6-13 6.4.1 WBT PAMS Cabinet Dynamic Similarity Analysis......................

6-13 6.4.2 Comparison of the Qualified Seismic Levels of the WBT PAMS Cabinet and Equipment Housed within to the WBT Requirements.................................................

6-14 6.4.2.1 Development of WBT OBE and SSE Amplified RRS................................................

6-14 6.4.2.2 E L :6 6 8 1.......................................................................................................................

6 -15 6.4.2.3 E Q L R -17 1...................................................................................................................

6-29 6.4.2.4 EQ LR -169A..................................................................................................

6-36 6.4.2.5 E Q L R - 178....................................................................................................................

6-4 3 6.4.2.6 E Q L R -168....................................................................................................................

6-50 6.4.2.7 E Q L R -159....................................................................................................................

6-57 6.4.2.8 00000-IC E -37773.......................................................................................................

6-64 6.4.2.9 LT R -E M PE 26.......................................................................................................

6-71 6.4.2.10 00000-IC E-37764........................................................................................................

6-78 6.4.2.11 E Q L R -182....................................................................................................................

6-85 6.4.2.12 E Q -E V W B T..........................................................................................................

6-92 6.4.2.13 E Q L R -130....................................................................................................................

6-99 6.4.2.14 E Q L R -124....................................................................................................................

6-106 6.4.3 Mounting Evaluation of the Equipment Housed in the WBT PAMS Cabinet............ 6-113 6.4.4 Mounting Evaluation of WBT PAMS Cabinet Base...................................................

6-113 6.4.4.1 Evaluation of WBT PAMS Cabinet Base Welding Pattern.........................................

6-113 6.4.4.2 Evaluation of WBT PAMS Cabinet Base Bolting Pattern...........................................

6-114 6.4.5 Qualified Seismic Levels of the WBT PAMS OM Assembly Components................ 6-114 SECTION 7 INSTALLATION REQUIREMENTS AND MAINTENANCE, SURVEILLANCE, AND REPLACEMENT PROGRAM..........................................

7-1 7.1 EQUIPMENT INTERFACE/BOUNDARY CONDITIONS......................................

7-1 7.2 INSTALLATION LIMITATIONS..............................................................................

7-2 7.3 MAINTENANCE, SURVEILLANCE, AND REPLACEMENT PROGRAM........... 7-3 SECTION 8

SUMMARY

AND CONCLUSIONS...........................................................................

8-1 EQ-QR-68-WBT-NP, Rev. 0 iv Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

LIST OF TABLES Table Title Page Table 2.1-1 List of Internal Components Housed in the WBT PAMS Cabinet.............................. 2-1 Table 2.1-2 List of W BT PAM S OM Components.........................................................................

2-7 Table 4.1-1 Basic Type Test Requirements of EPRI TR-102323 (Reference 8)............................ 4-2 Table 4.1-2 Basic EMC Type Test Requirements of RG 1.180 (Reference 7)............................... 4-3 Table 4.2-1 Common Q Hardware Expected Room Abnormal Environmental Requirements...... 4-5 Table 4.2-2 Common Q Hardware Generic Qualification Environmental Requirements.............. 4-5 Table 4.2-3 A IR Environm ental Conditions...................................................................................

4-6 Table 4.2-4 M CR Environm ental Conditions.................................................................................

4-6 Table 5.1-1 Qualification Testing Performed for AC 160/Common Q............................................

5-1 Table 5.2-1 EMC Qualification Requirement Basis for the AC160/Comnmon Q Hardware........... 5-4 Table 5.3-1 Environmental Test Condition Sum mary....................................................................

5-6 Table 6.1-1 Qualification Records for the WBT PAMS Cabinet Trains A and B C o m p on en ts.................................................................................................................

6-2 Table 6.1-2 Qualification Records for the WBT PAMS OM Components....................................

6-10 Table 6.4-1 Summary Results of the Dynamic Similarity Analysis...............................................

6-13 LIST OF FIGURES Title Figure Page Figure 4.3-1 Figure 4.3-2 Figure 4.3-3 Figure 4.3-4 Figure 4.3-5 Figure 4.3-6 Figure 4.3-7 Figure 4.3-8 Figure 4.3-9 OBE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14....................................................................

4-7 OBE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14....................................................................

4-8 OBE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14....................................................................

4-9 SSE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14....................................................................

4-10 SSE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14...................................................................

4-11 SSE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 Feet from Reference 14...................................................................

4-12 OBE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14...................................................................

4-13 OBE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14..................................................................

4-14 OBE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14...................................................................

4-15 EQ-QR-68-WBT-NP, Rev. 0 V

Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 V

Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

LIST OF FIGURES (cont.)

Figure Title Page Figure 4.3-10 SSE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14...................................................................

4-16 Figure 4.3-11 SSE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14...................................................................

4-17 Figure 4.3-12 SSE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14..................................................................

4-18 Figure 6.4-1

]a,c.......................................... 6 -16 Figure 6.4-2

[

]aP...................................................

6 -17 Figure 6.4-3

]a,c...................................................................

6 -18 Figure 6.4-4

[

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6 -19 Figure 6.4-5

[

]a,c........................................................... 6 -2 0 Figure 6.4-6

]a,c..................................................................... 6 -2 1 Figure 6.4-7

]a'c...................................................... 6 -2 3 Figure 6.4-8

]ac.............................................................. 6 -2 4 Figure 6.4-9

[

]ac.............................................................................................. 6 -2 5 Figure 6.4-10

[

],c............................................................... 6 -2 6 Figure 6.4-11

[

]a,c.............................................................. 6 -2 7 Figure 6.4-12

[

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[

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[

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...................... 6-31 Figure 6.4-15

[

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.......................................................................................... 6 -3 2 Figure 6.4-16

[

]aC...................

.............................. 6-33 Figure 6.4-17

[

]ax.............................................................. 6 -34 EQ-QR-68-WBT-NP, Rev. 0 vi Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

LIST OF FIGURES (cont.)

Title Figure Figure 6.4-18 Figure 6A4-19 Figure 6.4-20 Figure 6.4-21 Figure 6.4-22 Figure 6.4-23 Figure 6.4-24 Figure 6.4-25 Figure 6.4-26 Figure 6.4-27 Figure 6.4-28 Figure 6.4-29 Figure 6.4-30 Figure 6.4-31 Figure 6.4-32 Figure 6.4-33 Figure 6.4-34 Figure 6.4-35 Figure 6.4-36 Figure 6.4-37 Page

]a.c............................................................................................. 6 -3 5

]a,c.....

............................... 6-37

]ac..................................................... 6 -3 8

]a,c.........................

..................................................... 6 -3 9

]a,c............................................................... 6 -4 0

]ax............................................................... 6 -4 1 jaxc............................................................................................. 6 '4 2

]ax....................................................

6-44

]ac.................................................... 6 -4 5

]a,c......................................................................................... 6 -4 6

]ac.............................................................. 6 -4 7

]a............................................................... 6 -4 8

]a'c....................................................................................................

6 -4 9

]ac..................................................... 6 -5 1

]a.'..................................................... 6 -52

]ac......................................................................................... 6 -5 3

]a.c............................................................... 6 -54

]a"'............................................................... 6 -5 5

]ac.............................................................................................. 6 -5 6

]a,c..................................................... 6 -5 8 vii Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

LIST OF FIGURES (cont.)

Title Figure Figure 6.4-38 Figure 6.4-39 Figure 6.4-40 Figure 6.4-41 Figure 6.4-42 Figure 6.4-43 Figure 6.4-44 Figure 6.4-45 Figure 6.4-46 Figure 6.4-47 Figure 6.4-48 Figure 6.4-49 Figure 6.4-50 Figure 6.4-51 Figure 6.4-52 Figure 6.4-53 Figure 6.4-54 Figure 6.4-55 Figure 6.4-56 Figure 6.4-57 Page

]a,c..................................................... 6 -59

] C..........................................................................................

6 -6 0

]ax..................... 6-61

]a,c..................... 6-62

]ac............................................................... 6 -6 3

]ac............................................................................................. 6 -6 5

]a............................................................................................. 6 -6 6

]ap.............................................................................................

6 -6 7

]ac.................................................... 6 -6 8

].,............................................................. 6 -6 9

]a,c............................................................................. 6 -7 0

]a,c........................................................................ 6 -7 2

)).c........................................................................ 6 -7 3

]ac.............................................................................................

6 -74

]a 6 -7 5

].. C............................................

........... 6-76

]a xc I.......................................................

6 -7 7

]a,c............................................ 6 -7 9

]a"'............................................ 6-80

]ac...................................................................... 6 -8 1 viii Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

LIST OF FIGURES (cont.)

Title Figure Figure 6.4-58 Figure 6.4-59 Figure 6.4-60 Figure 6.4-61 Figure 6.4-62 Figure 6.4-63 Figure 6.4-64 Figure 6.4-65 Figure 6.4-66 Figure 6.4-67 Figure 6.4-68 Figure 6.4-69 Figure 6.4-70 Figure 6.4-71 Page

]a,c............................................ 6 -82

]a,c............................................ 6 -83

]a,c...................................................................... 6 -84

]a,c..................................................... 6 -8 6

]ac..................................................... 6 -87

]a,c.......................................................................................... 6 -8 8

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]a,c............................................ 6-93

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]a'c................................................................................................................. 6-97 Figure 6.4-72

]a,c...........

............. 6-98 Figure 6.4-73

]ac..................................................... 6-100 Figure 6.4-74

]

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]ac.......................................................................................... 6-102 Figure 6.4-76

]ac....................................................... 6-103 EQ-QR-68-WBT-NP, Rev. 0 ix Westinghouse Non-Proprietary Class 3

Nuclear Automation Wafts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TABLE OF CONTENTS (cont.)

LIST OF FIGURES (cont.)

Title Figure Figure 6.4-77 Figure 6.4-78 Figure 6.4-79 Figure 6.4-80 Figure 6.4-81 Figure 6.4-82 Figure 6.4-83 Figure 6.4-84 Figure 6.4-85 Figure 6.4-86 Figure 6.4-87 Figure 6.4-88 Page

]a,c............................................

.......... 6 -104

]a,c.............................................................................................. 6 -10 5

]3,....................................................

6 -10 7 6 -10 8

]ac.......................................................................................... 6 -10 9

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6-118 EQ-QR-68-WBT-NP, Rev. 0 x

Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 x

Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

ACRONYMS AND TRADEMARKS Acronyms used in the document are defined in WNA-PS-00016-GEN, "Standard Acronyms and Definitions" (Reference 45), or included below to ensure unambiguous understanding of their use within this document.

Acronym Definition AC 160 Advant Controller AIR Auxiliary Instrument Room DBE Design Basis Event EDMS Electronic Document Management System EFT/B Electrically Fast Transient Bursts EMC Electromagnetic Compatibility EMI Electromagnetic Interference ESD Electrostatic Discharge EPRI Electric Power Research Institute EQLR Equipment Qualification Lab Report FRS Floor Response Spectra FPDS Flat Panel Display System IEEE Institute of Electrical and Electronics Engineers, Inc.

IEC International Electrotechnical Commission MIL Military Standard MCB Main Control Board MCR Main Control Room OBE Operating Basis Earthquake OM Operator's Module PAMS Post-Accident Monitoring System PE Protective Earth P/N Part Number RFI Radio Frequency Interference RG Regulatory Guide RH Relative Humidity RRS Required Response Spectra RTD Resistance Temperature Detector SER Safety Evaluation Report SSE Safe Shutdown Earthquake TR Topical Report TRS Test Response Spectra TVA Tennessee Valley Authority U.S. NRC United States Nuclear Regulatory Commission WBT Watts Bar Unit 2 WLL Washington Laboratories, LTD EQ-QR-68-WBT-NP, Rev. 0 Xi Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

ACRONYMS AND TRADEMARKS (cont.)

Advant, eRoom, and Taptite are trademarks or registered trademarks of their respective owner(s). Other names may be trademarks of their respective owners.

All other product and corporate names used in this document may be trademarks or registered trademarks of other companies, and are used only for explanation and to the owners' benefit, without intent to infringe.

EQ-QR-68-WBT-NP, Rev. 0 xii Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 xii Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

GLOSSARY OF TERMS Standard terms used in the document are defined in WNA-PS-000 1 6-GEN, "Standard Acronyms and Definitions" (Reference 45), or included below to ensure unambiguous understanding of their use within this document.

Term Class lE Electromagnetic Compatibility (EMC)

Electromagnetic Interference (EMI)

Mild Environment Operating Basis Earthquake (OBE)

Qualification Radio Frequency Interference (RFI)

Required Response Spectra (RRS)

Definition The safety classification of the electric equipment and systems that are essential to emergency reactor shutdown, containment isolation, reactor core cooling, and containment and reactor heat removal or are otherwise essential in preventing significant release of radioactive material to the environment.

The ability of equipment or system to function satisfactorily in its electromagnetic environment without introducing intolerable electromagnetic disturbances to anything in that environment.

Electromagnetic disturbance which manifests itself in performance degradation, malfunction or failure of electrical or electronic equipment.

An environment expected as a result of normal service conditions and extremes (abnormal) in service conditions where seismic is the only Design Basis Event (DBE) of consequence.

An earthquake that could reasonably be expected to occur at the plant during the operating life of the plant considering the regional and local geology and seismology and specific characteristics of local subsurface material. It is that earthquake that produces the vibratory ground motion for which those features of the nuclear power plant, necessary for continued operation without undue risk to the health and safety of the public, are designed to remain functional.

The generation and maintenance of evidence to ensure, that the equipment will operate on demand to meet the system performance requirements.

Used interchangeably with EMI. EMI includes the entire electromagnetic spectrum; RFI is more restricted to the radio-frequency band, generally considered to be between 10 kHz and 10 GHz.

The response spectrum issued by the user or agent as part of the equipment specification for seismic qualification purposes. The RRS is a plot of the acceleration versus frequency describing the energy content of the earthquake time history. The RRS constitutes the requirement to be met during qualification activities.

EQ-QR-68-WBT-NP, Rev. 0 xiii Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 xiii Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

GLOSSARY OF TERMS (cont.)

Term Definition Response Spectrum Safe Shutdown Earthquake (SSE)

Safety-Related Seismic Category I Test Response Spectrum (TRS)

Zero Period Acceleration (ZPA)

A plot of the maximum response, as a function of oscillator frequency, of any array of single-degree-of-freedom damped oscillators subjected to the same base excitation.

An earthquake that is based upon an evaluation of the maximum earthquake potential considering the regional and local geology and seismology and specific characteristic of local subsurface material. It is the earthquake that produces the maximum vibratory ground motion for which certain structures, systems, and components are designed to remain functional. These structures, systems, and components are those necessary to ensure the integrity of the reactor coolant pressure boundary; the capability to shut down the reactor and maintain it in a safe shutdown condition; and the capability to prevent or mitigate the consequences of accidents that could result in potential off-site exposures comparable to the 10 CFR Part 100 guidelines.

Equipment that is relied upon to remain functional during and following a DBE to ensure the integrity of the reactor coolant pressure boundary; the capability to shut down the reactor and maintain it in a safe condition; and the capability to prevent or mitigate consequences of accidents that could result in potential off-site exposures comparable to the 10 CFR Part 100 guidelines.

A classification of structures, systems and components that shall be designed to withstand the effects of an SSE and maintain the specified design function and integrity.

The response spectrum that is developed from the actual time history of the motion of the shake table.

The acceleration level of the high frequency, non-amplified portion of the response spectrum. This acceleration corresponds to the maximum peak acceleration of the time history used to derive the spectrum.

EQ-QR-68-WBT-NP, Rev. 0 xiv Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

REFERENCES Following is a list of references used throughout this document.

1.

WBT-D-0088, "Transmittal of Westinghouse Comments on TVA Specification EDCR5235 1,"

July 10, 2008," Westinghouse Electric Company LLC.

2.

10047E63, Rev. 4, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Cabinet Assembly," Westinghouse Electric Company LLC.

3.

10004D82, Rev. 2, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Display Operators Module (OM) Assy," Westinghouse Electric Company LLC.

4.

10000A 193, Rev. 4, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Cabinet Assembly Bill of Materials," Westinghouse Electric Company LLC.

5.

WCAP-16097-P-A, Rev. 0, "Common Qualified Platform Topical Report," Westinghouse Electric Company LLC.

6.

WYNA-DS-01617-WBT-P, Rev. 4, "Watts Bar 2 NSSS Completion Program I&C Projects Post Accident Monitoring System - System Requirements Specification," Westinghouse Electric Company LLC.

7.

Regulatory Guide 1.180, "Guidelines for Evaluating Electromagnetic and Radio-Frequency Interference in Safety-Related Instrumentation and Control Systems," U.S. Nuclear Regulatory Commission, Revision 1, October 2003.

8.

TR-102323, Rev. 1, "Guidelines for Electromagnetic Interference Testing in Power Plants,"

Electric Power Research Institute, January 1997.

9.

WCAP-16097-P, Rev. 1, "Common Qualified Platform Topical Report," Westinghouse Electric Company LLC.

10.

IEEE Standard 323-1983, "IEEE Standard for Qualifying Class IE Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, Inc., 1983.

11, WNA-TR-02383-WBT, Rev. 1, "Post Accident Monitoring System Cabinet Hardware Test Report," Westinghouse Electric Company LLC.

12.

IEEE Standard 344-1987, "IEEE Recommended Practice for Seismic Qualification of Class lE Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, Inc., 1987.

EQ-QR-68-WBT-NP, Rev. 0 xv Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

REFERENCES (cont.)

13.

IEEE Standard 344-1975, "IEEE Recommended Practices for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, Inc., 1974.

14.

EDCR 52351, Rev. 0, "Post Accident Core Monitoring System," Tennessee Valley Authority.

15.

EL:6680, "Environmental Qualification Test for the Westinghouse Standard Seismic 7721 Cabinet (EQI and EQ2 Cabinets) AC160 Platform and Nuclear Instrumentation System (Phase 3 Testing - STP280)," Westinghouse Electric Company LLC.

16.

WNA-DC-00173-GEN, Rev. 0/APP, "EMC Technical Construction File AC160/Common Q Platform Safety System and Nuclear Instrumentation System (with Standard Seismic 7721 Safety Cabinet)," Westinghouse Electric Company LLC.

17.

WNA-DC-00173-GEN, Rev. 1/APP, "EMC Technical File AC160/Common Q Platform Safety System and Nuclear Instrumentation System (with Standard Seismic 7721 Safety Cabinet),"

Westinghouse Electric Company LLC.

18.

WNA-DC-00173-GEN, Rev. 2/APP, "EMC Technical File AC160/Common Q Platform Safety System and Nuclear Instrumentation System (with Standard Seismic 7721 Safety Cabinet),"

Westinghouse Electric Company LLC.

19.

WNA-DC-00173-GEN, Rev. 3/APP, "EMC Technical File AC 160/Common Q Platform Safety System and Nuclear Instrumentation System (with Standard Seismic 7721 Safety Cabinet),"

Westinghouse Electric Company LLC.

20.

WCAP-16166-P, Supplement 1 -E07, Rev. 0, "Equipment Qualification Report for AC 160 Platform - QUINT Power Supplies and Input Line Filter," Westinghouse Electric Company LLC.

21.

WCAP-16166-P, Supplement 1 -E06, Rev. 0, "Equipment Qualification Report for AC 160 Platform - Common Qualified (Common Q) Power Supply," Westinghouse Electric Company LLC.

22.

WCAP-16166-P, Supplement l-E05, Rev. 0, "Equipment Qualification Report for AC160 Platform - PC Node Box/Flat Panel Display System Components," Westinghouse Electric Company LLC.

23.

00000-ICE-37764, Rev. 03, "Summary Qualification Report of Hardware Testing for Common Q Applications," Westinghouse Electric Company LLC.

EQ-QR-68-WBT-NP, Rev. 0 xvi Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

REFERENCES (cont.)

24.

WCAP-16 166-P Supplement 1-E09, Rev. 1, "Equipment Qualification Report for AC 160 Platform - A1687 and A1688 Modules and Supporting Components for Use in Common Qualified (Common Q) Post Accident Monitoring System (PAMS)," Westinghouse Electric Company LLC.

25.

EQLR-171, Rev. 0, "Environmental and Seismic Test Report Analog Input (AI)687 and A1688 Modules and Supporting Components for use in Common Qualified (Common Q) Post Accident Monitoring System (PAMS)," Westinghouse Electric Company LLC.

26.

EQLR-169B, Rev. 0, "Environmental Test Report Westinghouse Common Q Power Supplies, QUINT Power Supplies and Line Filter Assemblies," Westinghouse Electric Company LLC.

27.

LTR-EMPE-03-26, Rev. 1, "AC 160 Safety System Component Qualification Summary, Revision 1," Westinghouse Electric Company LLC.

28.

EQ-QR-64-GEN, Rev. 0, "A1687 and A1688 for Use in Common Q PAMS EMC Test Report and Installation Limitations," Westinghouse Electric Company LLC.

29.

EQ-QR-40, Rev. 0, "Next Generation PC Node Box and Flat Panel Displays System EMC Qualification Test Report & Installation Limitations," Westinghouse Electric Company LLC.

30.

EQLR-169A, Rev. 0, "Common Q Power Supply, Quint Power Supply Assemblies, Input Line Filter, and South Texas Units 3&4 Circuit Breakers," Westinghouse Electric Company LLC.

31.

EQLR-159, Rev. 1, "Seismic Test Report Next Generation PC Node Box/Flat Panel Display System Components," Westinghouse Electric Company LLC.

32.

EQLR-168, Rev. 0, "Seismic Test Report 15" Flat Panel Display and Hinge Panel with Integrated Keyswitch," Westinghouse Electric Company LLC.

33.

EQLR-178, Rev. 0, "Seismic Test Report Standard Cabinet Keyboard Tray with Standard Safety System Keyboard," Westinghouse Electric Company LLC.

34.

00000-ICE-37773, Rev. 00, "Supplemental Qualification Test Report for Common Q Applications," Westinghouse Electric Company LLC.

35.

EQLR-182, Rev. 0, "Seismic Test Report Auxiliary Process Cabinet - Safety (APC-S)

Miscellaneous Components for Shin Kori Units 3 and 4," Westinghouse Electric Company LLC.

36.

EL:6681, "Seismic Qualification Test for the Westinghouse Standard Seismic 7721 Cabinet (EQI Cabinet) AC 160 Platform and Nuclear Instrumentation System (Phase 3 Testing-STP280),"

Westinghouse Electric Company LLC.

37.

NOT USED EQ-QR-68-WBT-NP, Rev. 0 xvii Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

REFERENCES (cont.)

38.

CN-EQT-10-49, Rev. 0, "Environmental Qualification of Watts Bar Unit 2 Post-Accident Monitoring System Equipment," Westinghouse Electric Company LLC.

39.

CN-EQT-10-55, Rev. 0, "EMC Qualification of Watts Bar Unit 2 Post-Accident Monitoring System Equipment," Westinghouse Electric Company LLC.

40.

CN-EQT-10-53, Rev. 1, "Seismic Evaluation for the Post-Accident Monitoring System (PAMS) for Watts Bar Unit 2," Westinghouse Electric Company LLC.

41.

WCAP-9981, Rev. 0, "Similarity Methods and Criteria for Seismic Evaluation of Electrical Equipment," Westinghouse Electric Company LLC.

42.

CN-EQT-10-44, Rev. 1, "Dynamic Similarity Analysis for the Watts Bar Unit 2 Post Accident Monitoring System (PAMS)," Westinghouse Electric Company LLC.

43.

10044E60, Rev. 1, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Cabinet Outline and Installation," Westinghouse Electric Company LLC.

44.

3D91662, Rev. 2, "Standard 7721 Seismic Cabinet Outline & Installation," Westinghouse Electric Company LLC.

45.

WNA-PS-00016-GEN, Rev. 5, "Standard Acronyms and Definitions," Westinghouse Electric Company LLC.

46.

AWS Specification D1. 1-2000, Structural Welding Code - Steel, American Welding Society.

47.

AWS Specification Dl. 1-2002, Structural Welding Code - Steel, American Welding Society.

48.

48N1319, Rev. 3, "Miscellaneous Steel Instrument Rm Emb.Pl's," Tennessee Valley Authority, May 1989.

49.

EQ-EV-62-WBT, Rev. 1, "TVA/WBT A1687 and A1688 Comparison of Tested Conditions for the A1687 and A1688 Common Q Modules to the Watts Bar Unit 2 (WBT) Requirements,"

Westinghouse Electric Company LLC.

50.

EQLR-130, Rev. 0, "Environmental and Seismic Test Report for the Westinghouse 2-out-of-3 Voter Termination Unit 2C48464G01 (AC 160/Common Q Platform Safety System),"

Westinghouse Electric Company LLC.

51.

EQLR-124, Rev. 0, "Environmental and Seismic Test Report Westinghouse Ringhals Unit 2 - TWICE Project Alternate Control System Components," Westinghouse Electric Company LLC.

EQ-QR-68-WBT-NP, Rev. 0 xviii Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 xvmi Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 52.

53.

54.

55.

56.

REFERENCES (cont.)

2D82988, Rev. 5, "Standard Safety Node Box Mounting Shelf Detail," Westinghouse Electric Company LLC.

2D82987, Rev. 2, "Standard Safety Flat Panel Display Mounting Panel Detail," Westinghouse Electric Company LLC.

3D918 10, Rev. 3, "Standard Safety Flat Panel Display Kit," Westinghouse Electric Company LLC.

WBT-TVA-1630, "Comments on Draft Qualification Summary Report," January 31, 2011, Tennessee Valley Authority.

WBT-TVA-1665, "Comments on Draft Qualification Summary Report Rev. 0-B,"

February 11, 2011, Tennessee Valley Authority.

(Last Page of Front Matter)

'R-68-WBT-NP, Rev. 0 xix Westinghouse Non-Pronrietarv Class 3 EQ-Q 3

J

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

SECTION 1 INTRODUCTION The objective of this report is to document the seismic, environmental, and electromagnetic compatibility (EMC) qualification of the Post-Accident Monitoring System (PAMS) equipment for the Watts Bar Unit 2 (WBT) application.

PAMS is a Class lE safety-related alarm and display system. The WBT PAMS consists of two independent trains of equipment (Trains A and B) which acquire and process two trains of inputs. The trains are physically separated and electrically isolated from each other. Each train of the WBT PAMS comprises two Advant Controller 160 (AC160) racks, a primary rack and an extension rack, located in one standard 7721 seismic safety cabinet. For each train, the Primary AC 160 rack contains a processor module that processes the Common Q PAMS algorithms and a communication interface module for communicating data on the AF 100 bus. The processor performs input processing and algorithms, and sends the outputs to its output cards and over the AF100 to the operator's module (OM). The OM is used to provide various display pages to the operator. The OM uses the Flat Panel Display System (FPDS),

which consists of a PC node box, an FPD with touch screen capability, and a standard AF 100 communication interface for communication to the processor module.

Per WBT-D-0088, "Transmittal of Westinghouse Comments on TVA Specification EDCR52351,"

(Reference 1), the WBT PAMS cabinets are located in the Auxiliary Instrument Room (AIR) and the OM is located in the main control room (MCR); both the AIR and MCR are mild environment locations.

The basic objectives for qualification of safety-related electrical equipment are:

" To reduce the potential for common mode failures due to environmental effects.

To demonstrate that safety-related electrical equipment is capable of performing its designated safety-related functions during and after a design basis event (DBE).

The objectives were met by monitoring the performance during testing and subsequent evaluations to demonstrate the AC 160 safety system platform hardware supplied for the WBT PAMS is qualified to WBT plant-specific seismic, environmental, and EMC requirements.

The AC160 safety system platform hardware used in the WBT PAMS application has been previously qualified. Evaluations were performed to demonstrate that the existing seismic, environmental, and EMC qualification records satisfy the plant-specific requirements for WBT. The evaluations are summarized within this report.

(Last Page of Section 1)

EQ-QR-68-WBT-NP, Rev. 0 1-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

SECTION 2 EQUIPMENT IDENTIFICATION AND QUALIFICATION

SUMMARY

2.1 EQUIPMENT IDENTIFICATION The WBT PAMS equipment is installed in two cabinets and on the main control board (MCB), as a part of the OM. The standard 7721 seismic safety cabinet is used as the system cabinet, which is typically used for installing AC 160 safety system platform equipment. The WBT PAMS cabinet and OM assemblies are defined in Drawings 10047E63, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Cabinet Assembly" (Reference 2) and 10004D82, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Display Operations Module (OM) Assy" (Reference 3).

Table 2.1-1 lists the components housed in the WBT PAMS cabinets. Table 2.1-2 lists the components installed on the MCB as the OM assembly.

Table 2.1-1. List of Internal Components Housed in the WBT PAMS Cabinet WBT PAMS Part Number for Item Train A and Train B Components No.

Part Name Description per 10000A193 (Reference 4) a,c7 EQ-QR-68-WBT-NP, Rev. 0 2-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 2.1-1. List of Internal. Components Housed in the WBT PAMIS Cabinet (cont.)

WBT PAMS Part Number for Item Train A and Train B Components No.

Part Name Description per 10000A193 (Reference 4) a,x EQ-QR-68-WBT-NP, Rev. 0 2-2 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 2.1-1. List of Internal Components Housed in the WBT PAMS Cabinet (cont.)

-I.

WBT PAMS Part Number for Item Train A and Train B Components No.

Part Name Description per 10000A193 (Reference 4) a,c 4

4 4

4 4

4 I.

EQ-QR-68-WBT-NP, Rev. 0 2-3 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 2.1-1. List of Internal Components Housed in the WBT PAMS Cabinet (cont.)

WBT PAMS Part Number for Item Train A and Train B Components No.

Part Name Description per IOOOOA193 (Reference 4) a,c EQ-QR-68-WBT-NP, Rev. 0 2-4 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 2.1-1. List of Internal Components Housed in the WBT PAMS Cabinet (cont.)

WBT PAMS Part Number for Item Train A and Train B Components No.

Part Name Description per 10000A193 (Reference 4) a,c

-I.

t t

I.

I I

I.

4 4

4 I.

I I

I.

I.

EQ-QR-68-WBT-NP, Rev. 0 2-5 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 2-5 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 2.1-1. List of Internal Components Housed in the WBT PAMS Cabinet (cont.)

WBT PAMS Part Number for Item Train A and Train B Components No.

Part Name Description per 10000A193 (Reference 4) a,c EQ-QR-68-WBT-NP, Rev. 0 2-6 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 2-6 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 2.1-2. List of WBT PAMS Or Components Item WBT PAMS Part Number per No.

Part Name Description 10004D82 (Reference 3) a,c 2.2 QUALIFICATION METHOD The method used to qualify the equipment identified in Table 2.1-1 and Table 2.1-2 was a combination of type test and analysis.

There have been various EMC, environmental, and seismic type test programs to qualify AC 160/Common Q hardware on a generic basis, not specifically for the WBT plant application of the AC160/Common Q hardware. Each type test (EMC, environmental, and seismic) was performed to demonstrate that the EUT were capable of performing the specified safety function(s) within the specified performance criteria.

Per the Safety Evaluation Report (SER) contained in WCAP-16097-P-A, "Common Qualified Platform Topical Report" (Reference 5), the U.S. Nuclear Regulatory Commission (NRC) requires a plant-specific evaluation of the generic qualifications to be performed for the plant-specific application of the Common Q equipment; this requirement is captured as Plant Specific Action Item 6.4. The plant-specific evaluation is to demonstrate that the WBT PAMS AC 160/Common Q hardware is qualified based on component or equipment similarity to the previously qualified AC 160/Common Q hardware and that the AC 160/Common Q hardware is qualified for the WBT plant-specific requirements.

EQ-QR-68-WBT-NP, Rev. 0 2-7 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 2.3

SUMMARY

OF QUALIFIED EQUIPMENT In summary, the WBT PAMS cabinet equipment, as identified in Drawing 10047E63 (Reference 2), is EMC, environmentally, and seismically qualified to the WBT EMC, environmental, and seismic qualification requirements specified in WNA-DS-01617-WBT-P, "Watts Bar 2 NSSS Completion Program I&C Projects Post Accident Monitoring System - System Requirements Specification" (Reference 6). The WBT PAMS OM equipment, as identified in Drawing 10004D82 (Reference 3), is EMC and environmentally qualified to the WBT EMC and environmental qualification requirements specified in WNA-DS-01617-WBT-P (Reference 6). The OM equipment qualified seismic levels are contained within this report along with the qualified mounting configurations of each OM component.

Westinghouse was not responsible for the installation of the OM equipment. Therefore, determining if the OM equipment is seismically qualified to the WBT seismic qualification requirements for the OM equipment locations is not in the scope of this report.

(Last Page of Section 2)

EQ-QR-68-WBT-NP, Rev. 0 2-8 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

SECTION 3 EQUIPMENT PERFORMANCE SPECIFICATION 3.1 SAFETY FUNCTION I

]a,c 3.2 PERFORMANCE REQUIREMENTS The PAMS cabinets, the equipment mounted within, and the OM components must demonstrate:

]a~c (Last Page of Section 3)

EQ-QR-68-WBT-NP, Rev. 0 3-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

SECTION 4 EQUIPMENT QUALIFICATION REQUIREMENTS 4.1 EMC The WBT PAMS EMC qualification requirements are specified in WNA-DS-01617-WBT-P, "Watts Bar 2 NSSS Completion Program I&C Projects Post Accident Monitoring System - System Requirements Specification" (Reference 6), which identifies WCAP-16097-P-A (Reference 5); Regulatory Guide (RG) 1.180, "Guidelines for Evaluating Electromagnetic and Radio-Frequency Interference in Safety-Related Instrumentation and Control Systems" (Reference 7); and Electric Power Research Institute (EPRI) Topical Report (TR)-102323, "Guidelines for Electromagnetic Interference Testing in Power Plants" (Reference 8) as acceptable resources for obtaining the requirements, test levels, and acceptance criteria for EMC qualification of WBT PAMS equipment, as clarified by Section 7.4 of WCAP-16097-P, "Common Qualified Platform Topical Report" (Reference 9), which states:

"The baseline Common Q equipment will be qualified in accordance with MIL Std 461D, MIL Std 462D, and as augmented by EPRI TR-102323."

"The basis for selecting the specific tests, test methods, test levels and susceptibility criterion for the baseline equipment will be based on the EPRI TR-102323 guidelines."

"Any new additions to the baseline equipment, whether they are new modules/devices or enhancements to existing modules/devices will be tested consistent with the requirements of RG 1.180, Rev. 01. No regression EMI testing will be performed; rather the requirements as defined in RG 1.180, Rev. 01 will be followed."

Table 4.1-1 and Table 4.1-2 summarize the emissions, susceptibility, and surge withstand requirements defined by EPRI TR-102323 (Reference 8) and RG 1.180 (Reference 7), respectively. The WBT EMC test specifications, test levels, and acceptance criteria for emissions and susceptibility, including surge withstand, are to meet the requirements of RG 1. 180 (Reference 7) and/or EPRI TR-102323 (Reference 8).

EQ-QR-68-WBT-NP, Rev. 0 4-1 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 4-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 4.1-1. Basic Type Test Requirements of EPRI TR-102323 (Reference 8)

EMC Type Test MIL-STD method Or F

IEC Method Additional Remarks Emissions Tests Low-Frequency, Conducted 461D CE101 or None specified EPRI TR-102323 (Reference 8) endorses High-Frequency, Conducted 461D CE102 or None specified MIL-STD methods only for emissions.

Low-Frequency, Radiated 461D RE101 or None specified High-Frequency, Radiated 461D RE 102 or None specified Susceptibility Tests (including Surge Withstand Capability)

Low-Frequency, Conducted 461D CS 101 or 801-6 IEC 61000-4-16 is current IEC equivalent for this specific test range.

High-Frequency, Conducted 461D CS1 14 or 801-6 IEC 61000-4-6 is current IEC equivalent.

Low-Frequency, Radiated 461D RS101 or None Test may be omitted altogether if certain usage criteria are met.

High-Frequency, Radiated 461D RS103 or 801-3 IEC 61000-4-3 is current IEC equivalent.

Surge 461D CSI 16 or 801-5 draft IEC 61000-4-5 is current IEC equivalent.

Electrically Fast Transient 461D CS1 15 or 801-4 Bursts (EFT/B)

LEC 61000-4-4 is current IEC equivalent.

Electrostatic Discharge None specified or 801-2 IEC 61000-4-2 is current IEC equivalent.

(ESD)

By definition this test is declared "optional" for safety systems based upon assumptions regarding operator interaction during normal operation. However, for equipment that has direct human interaction, it is directed that this test must be applied extensively.

EQ-QR-68-WBT-NP, Rev. 0 4-2 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 4.1-2. Basic EMC Type Test Requirements of RG 1.180 (Reference 7)

Category MIL-STD-461E Methods IEC/EN 61000 Methods Emissions CE1O0:

or No standard endorsed for:

Conducted emissions, low-Conducted emissions, low frequency, frequency, 30 Hz to 10 kHz 30 Hz to 10 kHz CEI02:

61000-6-4 (EN 5501 I/CISPR 11):

Conducted emissions, high-Conducted emissions, high frequency, frequency, 10 kHz to 2 MHz 150 kHz to 30 MHz RE 101:

No standard endorsed for:

Radiated emissions, magnetic Radiated emissions, magnetic field, 30 Hz field, 30 Hz to 100 kHz to 100 kHz RE102:

61000-6-4 (EN 5501 1/CISPR 11):

Radiated emissions, electric field, Radiated emissions, electric field, 30 MHz 2 MHz to 1 GHz"')

to 1 GHz(')

Susceptibility CSIO1:

Conducted susceptibility, low frequency, 30 Hz to 150 kHz CS 114:

Conducted susceptibility, high frequency, 10 kHz to 30 MHz CS 115:

Conducted susceptibility, bulk cable injection, impulse excitation CS 116:

Conducted susceptibility, damped sinusoidal transients, 10 kHz to 100 MHz RS101:

Radiated susceptibility, magnetic field, 30 Hz to 100 kHz RS103:

Radiated susceptibility, electric field, 30 MHz to 1 GHz(1) or 61000-4-13:

Conducted susceptibility, low frequency, 16 Hz to 2.4 kHz 61000-4-16:

Conducted susceptibility, low frequency, 15 Hz to 150 kHz 61000-4-6:

Conducted susceptibility, disturbances induced by radio-frequency fields 61000-4-4:

Conducted susceptibility, electrically fast transients/bursts 61000-4-5:

Conducted susceptibility, surges 61000-4-12:

Conducted susceptibility, 100 kHz ring wave 61000-4-8:

Radiated susceptibility, magnetic field, 50 Hz and 60 Hz 61000-4-9:

Radiated susceptibility, magnetic field, 50/60 Hz to 50 kHz 61000-4-10:

Radiated susceptibility, magnetic field, 100 kHz and 1 MHz 61000-4-3:

Radiated susceptibility, electric field, 26 MHz to 1 GHz(t)

EQ-QR-68-WBT-NP, Rev. 0 4-3 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 4-3 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

Table 4.1-2. Basic EMC Type Test Requirements of RG 1.180 (Reference 7) (cont.)

Category IEEE C62.41 Methods IEC/EN 61000 Methods Surge EFT or 61000-4-4 as described above Withstand Combination Wave 61000-4-5 as described above Capability Ring Wave 61000-4-12 as described above Note:

1. The baseline requirements specified for these tests are up to 1 GHz, but contextual extension of the range up to 10 GHz is recommended.

4.2 ENVIRONMENTAL The WBT PAMS environmental qualification requirements are specified in WNA-DS-01617-WBT-P (Reference 6), which identifies that the WBT PAMS cabinet equipment and OM equipment shall be qualified to the environmental qualification requirements described in Appendix 1 of WCAP-16097-P-A (Reference 5). Per Appendix I of WCAP-16097-P-A (Reference 5), the environmental qualification shall be performed in accordance with IEEE Standard 323-1983, "IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations" (Reference 10). WCAP-16097-P-A (Reference 5) also identifies the expected room abnormal temperature and humidity parameters, where the Common Q cabinets will be installed; these are shown in Table 4.2-1. The environmental qualification test conditions for Common Q equipment installed in a cabinet are shown in Table 4.2-2.

Per WNA-DS-01617-WBT-P (Reference 6), the WBT PAMS cabinets and the equipment therein, and the WBT PAMS OM equipment shall be qualified for the WBT plant-specific environment conditions defined in Table 4.2-3 and Table 4.2-4, respectively. Table 4.2-3 and Table 4.2-4 provide the abnormal environmental conditions for the AIR and MCR at WBT.

For the equipment installed inside an enclosure, the heat rise inside that enclosure needs to be considered in the environmental conditions. Therefore, the WBT PAMS equipment that is housed inside the PAMS cabinet will be exposed to the environmental conditions defined in Table 4.2-3. However, the temperature conditions would be increased by the heat rise inside the WBT PAMS cabinet. Per WNA-TR-02383-WBT, "Post Accident Monitoring System Cabinet Hardware Test Report" (Reference 11), the WBT PAMS cabinet heat rise temperature observed during the cabinet hardware test was [

].. For the environmental qualification of the WBT PAMS cabinet equipment, a cabinet heat rise of [

] was conservatively assumed.

The generic abnormal environmental qualification test parameters in Table 4.2-2 envelop the WBT environmental conditions shown in Table 4.2-3 (including the conditions inside the cabinet) and Table 4.2-4. Thus demonstrating that the WBT PAMS equipment is qualified to the required conditions specified in Table 4.2-2; it also demonstrates the qualification for the plant-specific environmental conditions (Table 4.2-3 and Table 4.2-4) at WBT.

EQ-QR-68-WBT-NP, Rev. 0 4-4 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 4-4 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 4.2-1. Common Q Hardware Expected Room Abnormal Environmental Requirements Abnormal Environmental Parameter Minimum Maximum Duration Table 4.2-2. Common Q Hardware Generic Qualification Environmental Requirements Minimum Relative Supply Time Temperature Humidity Voltage Frequency Time Cycle (Hours)

(OF)

(%)

(VAC)

(Hz)

Iac a,c EQ-QR-68-WBT-NP, Rev. 0 4-5 Westinghouse Non-Proprietary Class 3 EQ-QR-68-Y*'BT-NP, Rev. 0 4-5 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 4.2-3. AIR Environmental Conditions Parameter Design Range Duration Temperature¢1' 40-120°F Continuous Humidity(2) 20-95% RH Continuous Pressure Atmospheric Continuous Radiation (40-year Total Integrated Dose)

Background <1 x 103 Rads N/A Notes:

1. Applies to the ambient environment outside the PAMS cabinet. The PAMS equipment mounted within the PAMS cabinet will be exposed to the heat rise conditions inside the cabinet; per WNA-TR-02383-WBT (Reference 11), the cabinet heat rise inside the PAMS cabinet was measured to be [

c.

2.

Non-condensing.

Table 4.2-4. MCR Environmental Conditions Parameter Design Range Duration Temperature l) 60-104°F Continuous Humidity(2) 20-95% RH Continuous Pressure Atmospheric Continuous Radiation (40-year Total Integrated Dose)

Background <1 x 10 3 Rads N/A Notes:

1. Applies to the ambient environment.
2.

Non-condensing.

4.3 SEISMIC The WBT PAMS seismic qualification requirements are specified in WNA-DS-01617-WBT-P (Reference 6), which identifies that the WBT PAMS cabinet equipment and OM equipment shall be seismically qualified in accordance with the requirements of Appendix I of WCAP-1 6097-P-A (Reference 5). Per Appendix 1 of WCAP-16097-P-A (Reference 5), the seismic qualification shall be performed in accordance with IEEE Standard 344-1987, "IEEE Recommended Practice for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations" (Reference 12). However, per WNA-DS-01617-WBT-P (Reference 6), the WBT PAMS equipment shall be qualified in accordance with IEEE Standard 344-1975, "IEEE Recommended Practices for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations" (Reference 13).

In accordance with IEEE Standard 344-1975 (Reference 13), the seismic qualification of Class 1E equipment should demonstrate an equipment's ability to perform its required function during and after the EQ-QR-68-WBT-NP, Rev. 0 4-6 Westinghouse Non-Proprietary Class 3

Nuclear Automation Wafts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) time it is subjected to the accelerations resulting from one SSE test run. In addition, the equipment must withstand the effects of five OBE test runs, prior to the application of an SSE test run.

Tennessee Valley Authority (TVA) Specification EDCR 52351, "Post Accident Core Monitoring System" (Reference 14) provides the OBE and SSE required Floor Response Spectra (FRS) for the WBT Auxiliary Control Building elevation 711.50 feet (applicable to the PAMS cabinet in the AIR at elevation 708 feet) and elevation 755.50 feet (applicable to the OM in the MCR at elevation 755 feet). The OBE and SSE FRS are provided in Figure 4.3-1 through Figure 4.3-3 and Figure 4.3-4 through Figure 4.3-6 for the 711.50 foot elevation, respectively. Figure 4.3-7 through Figure 4.3-9 and Figure 4.3-10 through Figure 4.3-12 provide the OBE and SSE FRS for the 755.50 foot elevation, respectively.

Figure 4.3-1 through Figure 4.3-12 each contain hand drawn markups, with corresponding hand notated revision bars; these markings were on these figures in the source document, EDCR 52351 (Reference 14).

TVA WATTS BAR iJHN*f NEW-DESIGN/MODIFICATION AnS 19 0'

0 CL tn 102 Figure 4.3-1. OBE East to West FRS for Wafts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-7 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 4-7 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TVA WATTS BAR UNIT 1 NEW-DESIGN/MODIFICATION ARS 0F) 0 V,

z0

-J L)

-J C-)

1.125 0.750 0.375 0.000 !-

10-1 10 Q

10' FREQUENCY-CPS 1 02 Figure 4.3-2. OBE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-8 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 4-8 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 0)

z 0

Lii

-LJ Ui U-C-,

(L V) 1.125 0.750 0.375 TVA WATTS BAR UNIT I NEW-DESIGN/MODIFICATION ARS 1 % DAMPING AUXILIARY-CONTROL BUILDING 2% DAMPING EL 711.50 OBE -

VER RESPONSE 4% DAMPING ZPA = O.07g 5% DAMPING 7% DAMPING

,4t I Rb 0.000 1 0-1 1 00 101 1 02 FREQUENCY-CPS Figure 4.3-3. OBE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-9 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

TVA WATTS BAR -*tNF-T--NEW-DESIGN/MODIFICATION ARS 6.0 V) z 0

L)J L)

.4 a-C,,

4.5 3.0 1.5 0.00-10-1 FREQUENCY-CPS 102 Figure 4.3-4. SSE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-10 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TVA WATTS BAR UNIT -

NEW-DESIGN/MODIFICATION ARS 3.00 V:)

z 0

1=

_j

-LJ (L

0) 2.25 1.50 0.75 0.00 1-10-I 100F 10' FREQU ENCY-CPS 1 02 Figure 4.3-5. SSE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-11 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

TVA WATTS BAR 'dff t NEW-DESIGN/MOOIFICA'IOH IRS 40 U)z 0

4 ia

-J C.)

C) 4

-J4 I-C) w 0~

U) rREoLIENCY-CPS Figure 4.3-6. SSE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 711.50 Feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-12 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

"I'WA WATTS BAR UNIT-'

NEW-CESIGN/M ODIrICATION ARS la 0

In~

z La LO 100 101 FREQUENCY-CPS t W Figure 4.3-7. OBE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-13 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

WATTS BAR -bZfT -I' NEW-D':SIGN/MODIFICATION ARS

I 4J~

z 0

4 1~I UC-,

-j I-.

(.)

C-4n 0.01w 10*

1' FREQUENCY-CP$

102 Figure 4.3-8. OBE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-14 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 0 P

_j q

100 FREOFcENCY-CPS 102 Figure 4.3-9. OBE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-15 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

WATTS BAR -UtN

+

EN£W-OESIGN/MODIFICATION ARS If' z

0 Q

.4 CL M'

100 10'

.FREQUENCY-CPS I0V Figure 4.3-10. SSE East to West FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-16 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

(/1 z

0

-J Lii U

U

-J I-U 14 C.

TYA WATTS BAR -T ~i1-NEW-DESIGN/MODIFICATION ARS 3Z DAMPING S5% DAUPING ZPA 0.O7tgi 4-7Z DAMPING B

-r

[.*5

'0-si JeFREQUENCY-CPS 0

10V Figure 4.3-11. SSE North to South FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14 EQ-QR-68-WBT-NP, Rev. 0 4-17 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

"VA WATTS BAR O*i-+ NEW-DESIGN/MODIFICATION ARS 0,I o A 1-6 zk 10 U

FREOUENC¥-CPS 102 Figure 4.3-12. SSE Vertical FRS for Watts Bar Auxiliary Control Building at Elevation 755.50 Feet from Reference 14 (Last Page of Section 4)

EQ-QR-68-WBT-NP, Rev. 0 4-18 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

SECTION 5 TYPE TESTING PERFORMED 5.1 GENERAL The AC 160 Safety System Platform equipment, which includes the Standard Seismic 7721 safety cabinet and associated components and Common Q Platform hardware, was qualified based on testing and evaluation. The AC 160/Common Q hardware was originally qualified for seismic, environmental, and EMC, as part of the base Common Q qualification program, which is documented in 00000-ICE-37764, "Summary Qualification Report of Hardware Testing for Common Q Applications" (Reference 23).

Qualification tests have been performed on components that have been changed since completion of this base program due to product evolution, improvement, and/or obsolescence.

The qualification of the WBT PAMS AC 160/Common Q equipment is based on the test programs identified in Table 5.1-1. The test programs that are identified were not performed specific for the WBT application of the AC160/Common Q hardware. Section 6 provides a plant-specific evaluation to demonstrate that the WBT PAMS AC 160/Common Q hardware is qualified based on similarity to the qualified AC 160/Common Q hardware and that the AC 160/Common Q hardware is qualified for the WBT plant-specific requirements; this plant-specific evaluation addresses Plant Specific Action Item 6.4 as required by the NRC's SER contained in WCAP-16097-P-A (Reference 5).

Table 5.1-1. Qualification Testing Performed for AC160/Common Q Test Report Equipment Qualified Testing Performed a,c 4

I.

4-I.

EQ-QR-68-WBT-NP, Rev. 0 5-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitorinp System (PAMS)

Table 5.1-1. Qualification Testing Performed for AC160/Common Q (cont.)

Test Report Equipment Qualified

=

Testing Performed a,c 1-1

+

I

+

I

+

I

.1.

1

+

4

  • 1-I i

i EQ-QR-68-WBT-NP, Rev. 0 5-2 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 5.2 EMC TESTING The AC 160/Common Q equipment was subjected to EMC testing as documented in the various references cited in Table 5.1-1. The various EMC test programs were performed by Washington Laboratories, LTD (WLL) at the Westinghouse Electric Company LLC facility located in New Stanton, PA and at the WLL facility in Gaithersburg, MD, WYLE Laboratories in Huntsville, Alabama, and Retlif Testing Laboratories in Ronkonkoma, New York.

Table 5.2-1 identifies the EMC test standard(s) that were satisfied for each EMC qualification program.

EQ-QR-68-WBT-NP, Rev. 0 5-3 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-3 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.2-1. EMC Qualification Requirement Basis for the AC160/Common Q Hardware EMC Test Standard Qualification Reference Document RG 1.180, EPRI TR-102323, Notes Number Rev. 1 Rev. 1 (Reference 8)

(Reference 7)

WNA-DC-00173-GEN X

N/A (References 16, 17, 18, 19)

WCAP-16166-P, X

N/A Supplement 1 -E06 (Reference 21) 00000-ICE-37764 N/A X

(Reference 23)

EQ-QR-64-GEN X

N/A (Reference 28)

LTR-EMPE-03-26 See Comments See Comments (Reference 27)

WCAP-16166-P, X

X Supplement 1 -E05 (Reference 22)

EQ-QR-40 X

X (Reference 29) ac EQ-QR-68-WBT-NP, Rev. 0 5-4 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 5.3 ENVIRONMENTAL TESTING The AC 160/Common Q equipment was subjected to environmental testing as documented in the applicable references cited in Table 5.1-1. The environmental testing documented in EL:6680 (Reference 15) was performed by Clark Dynamic Testing Laboratory, LLC. The other various environmental test programs were performed by Westinghouse Electric Company LLC at the Westinghouse facility located in New Stanton, PA and WYLE Laboratories in Huntsville, Alabama.

Table 5.3-1 provides the tested environmental conditions from the various test programs. As discussed in Section 4.2, the required environmental test conditions in Table 4.2-2 satisfy the WBT plant-specific environmental requirements in Table 4.2-3 and Table 4.2-4; this includes a [

]aC heat rise inside the PAMS cabinet as discussed in Section 4.2.

As shown in Table 5.3-1, the tested conditions from the various test programs envelop the required environmental test conditions in Table 4.2-2.

ac EQ-QR-68-WBT-NP, Rev. 0 5-5 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-5 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.3-1. Environmental Test Condition Summary Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH1)

(hr)

Voltage (VAC)

(Hz) a,c 4-4 I

I-4 4

4 4

.4-4 4

4 I

  • I-4 4

4 4

4-4 EQ-QR-68-WBT-NP, Rev. 0 5-6 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident MonitorinE System (PAMS)

Table 5.3-1. Environmental Test Condition Summary (cont.)

Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH)

(hr)

Voltage (VAC)

(Hz) a,c EQ-QR-68-WBT-NP, Rev. 0 5-7 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.3-1. Environmental Test Condition Summary (cont.)

Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH)

(hr)

Voltage (VAC)

(Hz) a,c I

4 4

4 4

4 4

4 I

I 4

4 4

4

.4.

4 EQ-QR-68-WBT-NP, Rev. 0 5-8 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-8 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.3-1. Environmental Test Condition Summary (cont.)

Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH)

(hr)

Voltage (VAC)

(Hz) a,c EQ-QTl-68-WBT-NP, Rev. 0 5-9 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-9 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.3-1. Environmental Test Condition Summary (cont.)

Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH)

(hr)

Voltage (VAC)

(Hz) a,c EQ-QR-68-WBT-NP, Rev. 0 5-10 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-10 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.3-1. Environmental Test Condition Summary (cont.)

Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH)

(hr)

Voltage (VAC)

(Hz) a,c EQ-QR-68-WBT-NP, Rev. 0 5-11 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-11 Westinghouse Non-Proprietary Class 3

Nuclear Automation Waits Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 5.3-1. Environmental Test Condition Summary (cont.)

Test Temperature Humidity Duration Supply Frequency Cycle Qualification Reference (OF)

(% RH)

(hr)

Voltage (VAC)

(Hz) a,c EQ-QR-68-WBT-NP, Rev. 0 5-12 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 5-12 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 5.4 SEISMIC TESTING The AC 160/Common Q equipment was subjected to seismic testing as documented in the applicable references cited in Table 5.1-1. The seismic testing documented in EL:6681 (Reference 36) was performed at Clark Dynamic Testing Laboratory, LLC. The seismic testing documented in 00000-ICE-37764 (Reference 23), and 00000-ICE-37773 (Reference 34) was performed at WYLE Laboratories, LLC. The other various seismic test programs were performed by Westinghouse Electric Company LLC at the Westinghouse facility located in New Stanton, PA.

Note that the seismic qualification testing of the AC 160/Common Q equipment was performed to both IEEE Stds 344-1975 and 344-1987 (References 13 and 12, respectively), however, as noted in WNA-DS-0 1617-WBT-P (Reference 6), WBT PAMS shall be seismically qualified to IEEE Std 344-1975 (Reference 13). The seismic testing on the AC 160/Common Q equipment that was performed in accordance with IEEE Std 344-1987 (Reference 12) bounds the requirements specified in IEEE Std 344-1975 (Reference 13). Therefore, it is concluded that all of the AC 160/Common Q seismic qualification testing was performed in accordance with IEEE Std 344-1975 (Reference 13).

(Last Page of Section 5)

EQ-QR-68-WBT-NP, Rev. 0 5-13 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

SECTION 6 ANALYSIS PERFORMED AND BASIS FOR QUALIFICATION 6.1 GENERAL This section documents evaluation performed to:

Demonstrate EMC qualification of WBT PAMS cabinets and associated hardware, and OM assembly based on similarity to the qualified AC 160 Safety System platform hardware. The WBT applicable EMC requirements are described in Section 4.1.

" Demonstrate environmental qualification of WBT PAMS cabinets and associated hardware based on similarity to the qualified AC160 Safety System platform hardware. The WBT applicable environmental requirements are described in Section 4.2.

Demonstrate seismic qualification of the WBT PAMS cabinets and associated hardware based on similarity to qualified AC 160 Safety System platform hardware. The WBT applicable seismic requirements as detailed in Section 4.3.

A list of equipment supplied for the WBT PAMS application is provided in Table 6. 1-1 and Table 6.1-2, for the cabinet configurations and OM assembly, respectively. These tables also identify the qualification basis for each component, and qualification justification, where applicable.

EQ-QR-68-WBT-NP, Rev. 0 6-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Com~nletionl Prooram I&C Proiects Qualification Summary Report for Post-Aeeident Mannitorino System (PAMSt Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description 10000A193 (Reference 4)

Qualification Reference Reference Reference Remarks EQ-QR-6g-WBT-NP. Rev. 0 6-2 Westinghouse Non-Proprietary Class 3

Nuclear Automatioun Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description 10000A193 (Reference 4)

Qualification Reference Reference Reference Remarks axc 4

+

4 4

4

-I-4 4

4

+

4

+

4 4

+

4 4

4

+

4 EQ-QR-68-WVBT-NP. Rev. 0 6-3 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitorina System (PAMS)

Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description IOOOOA 193 (Reference 4)

Qualification Reference Reference Reference Remarks a,C

-I-4

+

4-4 4

4-4 4

4

-I-4 4

4-4 4

4 4

4 4-4 4

4

-I-4 EQ-QR-68-WBT-NP, Rev. 0 6-4 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Proiects Qualification Summary Report for Post-Accident Monitorina Sstem (PAMS1 Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description IO000A193 (Reference 4)

Qualification Reference Reference Reference Remarks a,c

-I-4

+

-I-4 4

4 EQ-QR-68-WBT-NP, Rev. 0 6-5 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description 10000A193 (Reference 4)

Qualification Reference Reference Reference Remarks ac EQ-QR-68-WBT-NP, Rev. 0 6-6 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-6 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Components per Environmental EMC Qualification Seismic Qualification Description 10000A193 (Reference 4)

Qualification Reference Reference Reference Remarks a*c EQ-QR-68-WBT-NP, Rev. 0 6-7 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description 10000A193 (Reference 4)

Qualification Reference Reference Reference Remarks axc EQ-QR-68-WBT-NP, Rev. 0 6-8 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 6.1-1. Qualification Records for the WBT PAMS Cabinet Trains A and B Components (cont.)

WBT PAMS Part Number for Train A and Train B Item Components per Environmental EMC Qualification Seismic Qualification No Part Name Description 10000A]93 (Reference 4)

Qualification Reference Reference Reference Remarks ac EQ-QR-68-WBT-NP, Rev. 0 6-9 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Proeram I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

Table 6.1-2. Qualification Records for the WBT PAMS OM Components Item No WBT PAMS Part Number for OM Components per 10004D82 (Reference 3)

Environmental Qualification Reference EMC Qualification Seismic Qualification Reference Reference Part Name Description Remarks axc I

1 1

1 T

[

I A

V I EQ-QR-68-WBT-NP, Rev. 0 6-10 Westinghouse Non-Proprietary Class 3

-- EQ-QR-68-WBT-NP, Rev. 0 6-10 Westinghouse Non-Proprietary Class 3 -

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitorino System (PAMS1 Table 6.1-2. Qualification Records for the WBT PAMS OM Components (cont.)

WBT PAMS Part Number Remarks Item for OM Components per Environmental EMC Qualification Seismic Qualification No Part Name Description 10004D82 (Reference 3)

Qualification Reference Reference Reference axc EQ-QR-68-WBT-NP. Rev. 0 6-I I Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-11 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.2 EMC The requirements for EMC qualification are specified in Section 4.1.

Table 6.1-1 and Table 6.1-2 identify the EMC qualification basis for components used in the PAMS cabinet and OM, respectively. The components used in PAMS are either identical or similar to the qualified component. If the component is similar to a tested component, similarity justification for qualification is provided by the evaluations contained in CN-EQT-10-55 (Reference 39).

As shown in Table 5.2-1, the AC 160/Common Q hardware was type tested in the various test programs and satisfied the requirements of EPRI TR-102323 (Reference 8) and RG 1.180 (Reference 7), as applicable.

Based on the EMC type testing and similarity evaluations performed, it is concluded that the qualified AC 160/Common Q hardware EMC conditions envelops the WBT PAMS EMC requirements stated in Section 4.1, when installed as detailed in Section 7.

The plant-specific evaluation of the WBT PAMS equipment EMC qualification is documented in CN-EQT-10-55 (Reference 39).

6.3 ENVIRONMENTAL Table 6.1-1 and Table 6.1-2 identify the environmental qualification basis for components used in the PAMS cabinet and OM, respectively. The components used in PAMS are either identical or similar to the qualified component. If the component is similar to a tested component, similarity justification for qualification is provided by the evaluations contained in CN-EQT-10-49 (Reference 38).

The AC160/Common Q hardware was exposed to the environmental conditions shown in Table 5.3-1.

The voltage and frequency of the power supplies were also varied during these test programs, as shown in Table 5.3-1. The AC 160/Common Q hardware qualified environmental conditions envelop the WBT PAMS environmental requirements as defined in Section 4.2 (Table 4.2-2).

Based on the qualification testing and similarity evaluations performed, it is concluded that the AC 160/Common Q hardware is qualified for the WBT PAMS application.

The plant-specific evaluation of the WBT PAMS equipment environmental qualification is documented in CN-EQT-10-49 (Reference 38).

EQ-QR-68-WBT-NP, Rev. 0 6-12 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-12 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 6.4 SEISMIC 6.4.1 WBT PAMS Cabinet Dynamic Similarity Analysis

]a,c The dynamic similarity analysis is documented in CN-EQT-10-44 (Reference 42).

]a-c The summary results of this dynamic similarity analysis are listed in Table 6.4-1.

Table 6.4-1. Summary Results of the Dynamic Similarity Analysis a,c I.

4 I'

I

]a,c EQ-QR-68-WBT-NP, Rev. 0 6-13 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-13 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 6.4.2 Comparison of the Qualified Seismic Levels of the WBT PAMS Cabinet and Equipment Housed within to the WBT Requirements Table 6.1-1 identifies the seismic qualification basis for the PAMS cabinet; it is based on the AC 160 cabinet test documented in EL:6681 (Reference 36). As stated in subsection 6.4.1, the WBT PAMS cabinet was shown to be dynamically similar to the AC 160 cabinet tested in EL:6681 (Reference 36).

Table 6.1-1 identifies various seismic test programs that provide the seismic qualification basis for the equipment housed within the PAMS cabinet; these programs are documented in 00000-ICE-37764 (Reference 23), EQLR-171 (Reference 25), LTR-EMPE-03-26 (Reference 27), EQLR-169A (Reference 30), EQLR-159 (Reference 31), EQLR-168 (Reference 32), EQLR-178 (Reference 33),

00000-ICE-37773 (Reference 34), EQLR-182 (Reference 35), EL:6681 (Reference 36), EQ-EV-62-WBT (Reference 49), EQLR-130 (Reference 50), and EQLR-124 (Reference 51).

To demonstrate that the resulting qualified levels from these various seismic test programs apply to WBT, the qualifying OBE and SSE levels must envelope the WBT OBE and SSE amplified RRS for the WBT PAMS cabinet.

6.4.2.1 Development of WBT OBE and SSE Amplified RRS

]ac The WBT OBE and SSE amplified RRS have been compared to the qualified levels from the various seismic test programs identified in Table 6.1-1; these comparisons are provided in Subsections 6.4.2.2 through 6.4.2.14. Note that TVA drawing 48N1319, "Miscellaneous Steel Instrument Rm Emb.Pl's" (Reference 48), identifies that the North to South direction of the plant is the cabinet Side to Side orientation. [

]ac EQ-QR-68-WBT-NP, Rev. 0 6-14 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.2 EL:6681 6.4.2.2.1 Qualification of the Tested Cabinet Figures 6.4-1 through 6.4-3 provide the comparison of the WBT OBE FRS to the qualified OBE levels for the tested cabinet from EL:6681 (Reference 36) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-4 through 6.4-6 provide the comparison of the WBT SSE FRS to the qualified SSE levels for the components in the tested cabinet from EL:6681 (Reference 36) in each principal direction (Side to Side vs. North to South, Front to Back Vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-1 through 6.4-6, the qualified OBE and SSE levels envelop the WBT OBE and SSE FRS in each principal direction.

EQ-QR-68-WBT-NP, Rev. 0 6-15 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-1. [

ac EQ-QR-68-WBT-NP, Rev. 0 6-16 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,x Figure 6.4-2. [

Iax EQ-QR-68-WBT-NP, Rev. 0 6-17 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-17 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-3. [

Iac EQ-QR-68-WBT-NP, Rev. 0 6-18 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-4. 1 a,c EQ-QR-68-WBT-NP, Rev. 0 6-19 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-5. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-20 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-6. [

IC EQ-QR-68-WBT-NP, Rev. 0 6-21 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.2.2 Qualification of the Components Mounted within the Tested Cabinet Figures 6.4-7 through 6.4-9 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels for the components mounted within the tested cabinet from EL:6681 (Reference 36) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs.

Vertical, respectively).

Figures 6.4-10 through 6.4-12 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EL:6681 (Reference 36) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-7 through 6.4-12, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-22 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-7. [

l2,C EQ-QR-68-WBT-NP, Rev. 0 6-23 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-8. 1 I a,c EQ-QR-68-WBT-NP, Rev. 0 6-24 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-9. 1 I a,c EQ-QR-68-WBT-NP, Rev. 0 6-25 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-10. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-26 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-26 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-11. 1 a,c EQ-QR-68-WBT-NP, Rev. 0 6-27 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-12. [

I ac EQ-QR-68-WBT-NP, Rev. 0 6-28 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.3 EQLR-171 Figures 6.4-13 through 6.4-15 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-171 (Reference 25) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-16 through 6.4-18 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-171 (Reference 25) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-13 through 6.4-18, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-29 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-13. [

Ia,c EQ-QR-68-WBT-NP, Rev. 0 6-30 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-30 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-14. [

I,C EQ-QR-68-WBT-NP, Rev. 0 6-31 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-15. [

Ia,c EQ-QR-68-WBT-NP, Rev. 0 6-32 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-32 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-16. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-33 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-33 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-17. [

a,c EQ-QR-68-WBT-NP, Rev. 0 6-34 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-34 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident MonitorinR System (PAMS) a,c Figure 6.4-18. [

Ia,c EQ-QR-68-WBT-NP, Rev. 0 6-35 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.4 EQLR-169A Figures 6.4-19 through 6.4-21 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-169A (Reference 30) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-22 through 6.4-24 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-169A (Reference 30) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-19 through 6.4-24, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-36 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-19. 1 I a.e EQ-QR-68-WBT-NP, Rev. 0 6-37 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-20. [

J ac EQ-QR-68-WBT-NP, Rev. 0 6-38 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-38 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-21. [

I a.c EQ-QR-68-WBT-NP, Rev. 0 6-39 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-22. 1 I.c EQ-QR-68-WBT-NP, Rev. 0 6-40 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-40 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-23. [

a2C EQ-QR-68-WBT-NP, Rev. 0 6-41 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-41 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-24. 1 I a,c EQ-QR-68-WBT-NP, Rev. 0 6-42 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.5 EQLR-178 Figures 6.4-25 through 6.4-27 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-178 (Reference 33) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-28 through 6.4-30 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-178 (Reference 33) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figure 6.4-25 through Figure 6.4-30, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-43 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-43 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-25. 1

] a,C EQ-QR-68-WBT-NP, Rev. 0 6-44 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-26. [

a,c EQ-QR-68-WBT-NP, Rev. 0 6-45 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-45 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-27. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-46 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-28. [

SaxC EQ-QR-68-WBT-NP, Rev. 0 6-47 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-47 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-29. [

la,c EQ-QR-68-WBT-NP, Rev. 0 6-48 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-30. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-49 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.6 EQLR-168 Figures 6.4-31 through 6.4-33 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-168 (Reference 32) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures6.4-34 through 6.4-36 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-168 (Reference 32) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-31 through 6.4-36, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-50 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-31. 1 Ia,c EQ-QR-68-WBT-NP, Rev. 0 6-51 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-32. [

I O.C EQ-QR-68-WBT-NP, Rev. 0 6-52 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-52 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-33. [

a,c EQ-QR-68-WBT-NP, Rev. 0 6-53 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-34. [

] a,c EQ-QR-68-WBT-NP, Rev. 0 6-54 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-35. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-55 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-36. [

] nc EQ-QR-68-WBT-NP, Rev. 0 6-56 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.7 EQLR-159 Figures 6.4-37 through 6.4-39 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-159 (Reference 31) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-40 through 6.4-42 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-159 (Reference 31) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figure 6.4-37 through Figure 6.4-42, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-57 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-37. [

I a.c EQ-QR-68-WBT-NP, Rev. 0 6-58 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-38.

]aRc EQ-QR-68-WBT-NP, Rev. 0 6-59 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-39. [

J Oc EQ-QR-68-WBT-NP, Rev. 0 6-60 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-40. 1 I 3,C EQ-QR-68-WBT-NP, Rev. 0.

6-61 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-41. 1 I a,c EQ-QR-68-WBT-NP, Rev. 0 6-62 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-42. [

] 2,C EQ-QR-68-WBT-NP, Rev. 0 6-63 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 6.4.2.8 00000-ICE-37773 Figures 6.4-43 through 6.4-45 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from 00000-ICE-37773 (Reference 34) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

]a.c Figures 6.4-46 through 6.4-48 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from 00000-ICE-37773 (Reference 34) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-43 through 6.4-48, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-64 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-43. 1 Ia2C EQ-QR-68-WBT-NP, Rev. 0 6-65 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-44. [

I a,C EQ-QR-68-WBT-NP, Rev. 0 6-66 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-45. 1 Ia,c EQ-QR-68-WBT-NP, Rev. 0 6-67 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-67 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-46. [

] 2,C EQ-QR-68-WBT-NP, Rev. 0 6-68 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-47. 1 la,c EQ-QR-68-WBT-NP, Rev. 0 6-69 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-69 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-48. 1 Sa,c EQ-QR-68-WBT-NP, Rev. 0 6-70 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 6.4.2.9 LTR-EMPE-03-26 Figures 6.4-49 through 6.4-51 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from LTR-EMPE-03-26 (Reference 27) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

]a,c Figures 6.4-52 through 6.4-54 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from LTR-EMPE-03-26 (Reference 27) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-49 through 6.4-54, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-71 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-71 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-49. 1 a4C EQ-QR-68-WBT-NP, Rev. 0 6-72 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-50. [

a,C EQ-QR-68-WBT-NP, Rev. 0 6-73 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-51. 1 I ac EQ-QR-68-WBT-NP, Rev. 0 6-74 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-52. [

ac EQ-QR-68-WBT-NP, Rev. 0 6-75 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-53. [

Ia,C EQ-QR-68-WBT-NP, Rev. 0 6-76 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-76 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-54. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-77 Westinghouse Non-Proprietary Class 3 EQ-QRý68-WBT-NP, Rev. 0 6-77 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) 6.4.2.10 00000-ICE-37764 Figures 6.4-55 through 6.4-57 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from 00000-ICE-37764 (Reference 23) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-58 through 6.4-60 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from 00000-ICE-37764 (Reference 23) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

]ac As shown in Figures 6.4-55 through 6.4-60, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-78 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-78 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-55. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-79 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-79 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-56. [

Iac EQ-QR-68-WBT-NP, Rev.. 0 6-80 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-57. [

I 3,c EQ-QR-68-WBT-NP, Rev. 0 6-81 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-81 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-58. [

la,c EQ-QR-68-WBT-NP, Rev. 0 6-82 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-59. 1 Ja,c EQ-QR-68-WBT-NP, Rev. 0 6-83 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-60. [

la,c EQ-QR-68-WBT-NP, Rev. 0 6-84 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-84 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.11 EQLR-182 Figures 6.4-61 through 6.4-63 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-182 (Reference 35) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-64 through 6.4-66 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-182 (Reference 35) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-61 through 6.4-66, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-85 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-61. 1

]a,C EQ-QR-68-WBT-NP, Rev. 0 6-86 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-86 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-62. [

I ac EQ-QR-68-WBT-NP, Rev. 0 6-87 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-63. 1 I a,C EQ-QR-68-WBT-NP, Rev. 0 6-88 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-64. 1 a.c EQ-QR-68-WBT-NP, Rev. 0 6-89 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-89 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-65. [

I a.c EQ-QR-68-WBT-NP, Rev. 0 6-90 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-66. 1 a,c EQ-QR-68-WBT-NP, Rev. 0 6-91 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.12 EQ-EV-62-WBT Figures 6.4-67 through 6.4-69 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQ-EV-62-WBT (Reference 49) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-70 through 6.4-72 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQ-EV-62-WBT (Reference 49) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-67 through 6.4-72, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-92 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-92 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c

-Figure 6.4-67. [

I a.c EQ-QR-68-WBT-NP, Rev. 0 6-93 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-68. 1 11,1 EQýQR-68-WBT-NP, Rev. 0 6-94 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-69. 1 I 8,C EQ-QR-68-WBT-NP, Rev. 0 6-95 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-70. 1 I a,c EQ-QR-68-WBT-NP, Rev. 0 6-96 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-71. [

la,c EQ-QR-68-WBT-NP, Rev. 0 6-97 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-97 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-72. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-98 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.13 EQLR-130 Figures 6.4-73 through 6.4-75 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-130 (Reference 50) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-76 through 6.4-78 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-130 (Reference 50) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-73 through 6.4-78, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-99 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-99 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-73. [

Ia2C EQ-QR-68-WBT-NP, Rev. 0 6-100 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-74. [

Ia,c EQ-QR-68-WBT-NP, Rev. 0 6-101 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-75. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-102 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-102 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-76. [

I ac EQ-QR-68-WBT-NP, Rev. 0 6-103 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-77. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-104 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) ac Figure 6.4-78. [

12,C EQ-QR-68-WBT-NP, Rev. 0 6-105 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.2.14 EQLR-124 Figures 6.4-79 through 6.4-81 provide the comparison of the WBT OBE amplified RRS to the qualified OBE levels from EQLR-124 (Reference 51) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

Figures 6.4-82 through 6.4-84 provide the comparison of the WBT SSE amplified RRS to the qualified SSE levels from EQLR-124 (Reference 50) in each principal direction (Side to Side vs. North to South, Front to Back vs. East to West, and Vertical vs. Vertical, respectively).

As shown in Figures 6.4-79 through 6.4-84, the qualified OBE and SSE levels envelop the WBT OBE and SSE North to South and East to West amplified RRS and the Vertical RRS.

EQ-QR-68-WBT-NP, Rev. 0 6-106 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-79. [

I,c EQ-QR-68-WBT-NP, Rev. 0 6-107 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-80. [

I2.C EQ-QR-68-WBT-NP, Rev. 0 6-108 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-108 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-81. [

]ale EQ-QR-68-WBT-NP, Rev. 0 6-109 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-82. [

EQ-QR-68-WBT-NP, Rev. 0 6-110 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-110 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-83. [

] a,C EQ-QR-68-WBT-NP, Rev. 0 6-111 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-111 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-84. [

Sac EQ-QR-68-WBT-NP, Rev. 0 6-112 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS) 6.4.3 Mounting Evaluation of the Equipment Housed in the WBT PAMS Cabinet To demonstrate the equipment housed within the WBT PAMS cabinet maintains structural integrity in accordance with the requirements of IEEE Std 344-1975 (Reference 13), the mounting of WBT PAMS cabinet components were compared to the as-tested component mounting configurations.

pac The mounting of the WBT PAMS cabinet components maintain structural integrity in accordance with the requirements of IEEE Standard 344-1975 (Reference 13) when subjected to the maximum amplified acceleration of the WVBT PAMS cabinet. [

]a,c 6.4.4 Mounting Evaluation of WBT PAMS Cabinet Base As per drawing 10044E60, "Watts Bar Unit 2 Post Accident Monitoring System (PAMS) Cabinet Outline and Installation" (Reference 43) which details the WBT PAMS cabinet installation options, the cabinet base can be welded to the floor embedment (supplied by the customer) which will be secured to the concrete floor with appropriate hardware (also supplied by the customer), or bolted to the floor embedment. The welding and bolting patterns identified in 10044E60 (Reference 43) are identical to those found in the standard 7721 cabinet outline and assembly drawing 3D91662, "Standard 7721 Seismic Cabinet Outline & Installation" (Reference 44). Both patterns were evaluated as documented in the following subsections.

6.4.4.1 Evaluation of WBT PAMS Cabinet Base Welding Pattern 3,C EQ-QR-68-WBT-NP, Rev. 0 6-113 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

I a,c Therefore, mounting of the WBT PAMS cabinet base according to the welding pattern defined in 10044E60 (Reference 43) is seismically qualified.

6.4.4.2 Evaluation of WBT PAMS Cabinet Base Bolting Pattern pac Therefore, mounting of the WBT PAMS cabinet base according to the bolting pattern defined in 10044E60 (Reference 43) is seismically qualified.

6.4.5 Qualified Seismic Levels of the WBT PAMS OM Assembly Components Table 6.1-2 identifies various seismic test programs that provide the seismic qualification basis for the OM components; these programs are documented in LTR-EMPE-03-26 (Reference 27), EQLR-159 (Reference 31), EQLR-168 (Reference 32), and EL:6681 (Reference 36).

The qualified OBE and SSE levels for the OM are shown in Figures 6.4-85 through 6.4-88.

Westinghouse is not responsible for the installation of the OM equipment to the MCB. Therefore, the comparison of the OM qualified OBE and SSE levels to the WBT OBE and SSE FRS for the Watts Bar Control Building at Elevation 755.00 feet, which are presented in Section 4.3, or an amplified RRS that would represent the location at which the OM is mounted to the MCB is out of the scope of this report.

However, the qualified mounting configuration(s) of each OM component is provided in Section 7.1.

EQ-QR-68-WBT-NP, Rev. 0 6-114 Westinghouse Non-Proprietary Class 3 EQ-QR-68-WBT-NP, Rev. 0 6-114 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-85. [

I a,c EQ-QR-68-WBT-NP, Rev. 0 6-115 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-86. 1 I a,C EQ-QR-68-WBT-NP, Rev. 0 6-116 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-87. [

Ia,s EQ-QR-68-WBT-NP, Rev. 0 6-117 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS) a,c Figure 6.4-88. 1 Sac (Last Page of Section 6)

EQ-QR-68-WBT-NP, Rev. 0 6-118 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Qualification Summary Report for Completion Program I&C Projects Post-Accident Monitoring System (PAMS)

SECTION 7 INSTALLATION REQUIREMENTS AND MAINTENANCE, SURVEILLANCE, AND REPLACEMENT PROGRAM 7.1 EQUIPMENT INTERFACE/BOUNDARY CONDITIONS The equipment interface/boundary condition requirements for the WBT PAMS cabinet is based on the outline and installation Drawing 10044E60 (Reference 43).

The equipment interface/boundary condition requirements for the WBT PAMS OM equipment are based on the testing and analysis herein and are provided below:

]a,c EQ-QR-68-WBT-NP, Rev. 0 7-1 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

II pac All other mounting configurations must be analyzed prior to use.

7.2 INSTALLATION LIMITATIONS The following limitations and restrictions must be followed for the qualified use of the equipment on the basis of the test program recorded in this document:

]ac EQ-QR-68-WBT-NP, Rev. 0 7-2 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

I

]a,c 7.3 MAINTENANCE, SURVEILLANCE, AND REPLACEMENT PROGRAM There are no maintenance, surveillance, or replacement requirements defined as a result of the equipment qualification program.

(Last Page of Section 7)

EQ-QR-68-WBT-NP, Rev. 0 7-3 Westinghouse Non-Proprietary Class 3

Nuclear Automation Watts Bar Unit 2 NSSS Completion Program I&C Projects Qualification Summary Report for Post-Accident Monitoring System (PAMS)

SECTION 8

SUMMARY

AND CONCLUSIONS The qualification testing performed on the AC 1 60/Common Q hardware demonstrates that the WBT PAMS equipment is EMC, environmentally and seismically qualified for the WBT Class lE application per the guidance contained in IEEE Standards 323-1983 and 344-1975 (References 10 and 13, respectively). The equipment has also demonstrated EMI/EMC compatibility for safety application in nuclear power plants according to the guidance provided in U.S. NRC Regulatory Guide 1.180, Rev. I (Reference 7) for emissions and susceptibility. The equipment has also demonstrated the ESD susceptibility requirements of EPRI TR-102323 (Reference 8).

Note that Westinghouse was not responsible for the installation of the OM equipment. Therefore, determining if the OM equipment is seismically qualified to the WBT seismic qualification requirements for the OM equipment locations is not in the scope of this report. However, this report does contain the seismic levels that the OM equipment is qualified to and the mounting configurations that the qualification is based upon.

(Last Page of Section 8)

EQ-QR-68-WBT-NP, Rev. 0 8-1 Westinghouse Non-Proprietary Class 3

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