Text

Submits Suppl Info,Requesting to Support LCR 92-14 Which Eliminates Steamflow/Feedflow Mismatch Coincident W/Low SG Water Level RT
	ML18100A719
Person / Time
Site:	Salem
Issue date:	11/17/1993
From:	Hagan J; Public Service Enterprise Group
To:	; NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
	NLR-N93158, NUDOCS 9312020232
	Download: ML18100A719 (77)
	v • d • e

- e Public Service Electric and Gas Company Joseph J. Hagan Public Service Electric and Gas Company P.O. Box 236, Hancocks Bridge, NJ 08038 609-339-1200 Vice President - Nuclear Operations NOV17 1993 NLR-N93158 LCR 92-14 United States Nuclear Regu.latqry Commission Document Controi Desk Washington, DC 20555 Gentlemen:

LICENSE CHANGE REQUEST 92-14 SUPPLEMENTAL INFORMATION SALEM GENERATING STATION UNIT NOS. 1 AND 2 DOCKET NOS. 50-272 AND 50-311 Public Service Electric & Gas Company (PSE&G) her~by submits the supplemental information requested to support 1-tcehse change request 92-14 which eliminates the Steamflow/Feedflow Mismatch Coincident with a Low Steam Generator Water Level 'R.eactor Trip.

These questions were identified at a meeting between. the NRC and PSE&G on July 19, 1993 and documented in NRC letter (l.\\-Ieeting Summary), dated July 28, 1993.

Ql.

Provide a commitment that all changes to the system will be considered a critical change and that Westinghouse, the system/software designer, will be consulted on the change.

R.

Any changes to the Digital Feedwater System or software that could have the potential to affect the Median Signal Selector will be considered critical changes and Westinghouse, the system/software designer, will be consulted on the change.

Q2.

Provide a commitment that surveillat1ce testing will be done monthly for the first year of operation in each unit.

After the first year, assuming satisfactory results, surveillance testing will be done every fuel cycle.

R.

A functional test of the Median Signal Selector for the narrow range steam generator level channels will be performed quarterly for the first cycle of operation on each unit.

Based on satisfactory operation of the Median Signal Selector at other nuclear plants, quarterly testing will provide sufficient assurance of proper operation at Salem.

\\

NOV171993 Document Control Desk NLR-N93158 2

LCR 92-14 The Median Signal Selector provides the auctioneering circuit for the feedwater regulating valves necessary to ensure the valve is controlled from a valid steam generator level channel. The Median Signal Selector eliminates the need for steamflow/feedflow mismatch coincident with a a low steam generator water level reactor trip.

Assuming satisfactory results, the functionai test will be performed on a once.per refueling cycle basis.

Q3.

Provide a copy of the functional requirements of the feedwater control system.

R.

A copy of the functional requirements for the system is provided as Enclosure 1.

Q4.

Provide the response to the State of New Jersey's comment.

R.

The State of New Jersey identified a concern that Salem Unit 2 experienced electronic failures in the Rod Control System and that the Digital Feedwater System may be susceptible to similar failures.

PSE&G has identified that the causes of the failures of the Rod Control System were back EMF, ESD, and human errors.

The Digital Feedwater System has no inductive loads which can introduce similar back EMF amplitudes.

Also, output contacts on the Digital Feedwater System contain optical isolators to prevent feedback.

PSE&G has established ESD controls to eliminate the likelihood of ESD causing failures in the Digital Feedwater System.

Problems with troubleshooting that occurred on the Rod Control System have been reviewed with appropriate personnel.

Troubleshooting procedures have been revised to correct deficiencies and provide for guidance and control of activities.

Should there be any questions with regard to this submittal, please do not hesitate to contact us.

sincerely,

NOV171993 Document Control Desk NLR-N93158 3

LCR 92-14 c

Mr. J. c. Stone Licensing Project Manager Mr. C. Marschall Senior Resident Inspector Mr. T. Martin, Administrator Region I Mr. Kent Tosch, Manager IV New Jersey Department of Environmental Protection Division of Environmental Quality Bureau of Nuclear Engineering CN 415 Trenton, NJ 08625

REF:

NLR-N93077 STATE OF NEW JERSEY SS.

COUNTY OF SALEM J. J. Hagan, being duly sworn according to law deposes and says:

I am Vice President - Nuclear Operations of Public Service Electric and Gas Company, and as such, I find the matters set forth in the above referenced letter, concerning the Salem Generating station, Unit Nos. 1 and 2, are true to the best of my knowledge, information and belief.

Subscribed and sworn fir? before me this L7 f;A day of;(/~ WuL,, 1993 J

~~O)µffi Notary Public of New Jersey My Commission expires on KIMBERLY JO BROWN NOT ARY PUBLIC OF NEW JERSEY My Commission Expires April 21, 199B

~ -

PUBLIC SERVICE ELECTRIC AND GAS COMPANY SALEM STATION - UNIT 1 ANALOG FEEDWATER CONTROL SYSTEM REPLACEMENT PROJECT ADVANCED DIGITAL FEEDWATER CONTROL SYSTEM TECHNICAL REQUIREMENTS April 20, 1993 Revision 6

Advanced Digital Feedwater Control System Paae No.

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Page i of iv Technical Requirements Revision 6 April 20, 1993 Rev.

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Advanced Digital Feedwater Control System Technical Requirements Revision 6 April 20, 1993 SECTION 1.0 1.1 1.2 1.3 1.4 1.5 2.0 2.1 2.2 2.3 2.4 3.0 3.1 3.2 3.3 3.4 3.5 4.0 5.0 5.1 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 ADFCS TECHNICAL REQUIREMENTS TABLE OF CONTENTS DESCRIPTION PAGE NO.

PROJECT DESCRIPTION............................................ 1 Equipment Requirements............................................... 1 Shipping Destination.................................................... 1 Shipment and Operation................................................ 1 Reference Drawings..................................................... 2 DefID.itions................................................................ 3 EXTENT OF WORK................................................... 4 Work Included........................................................... 4 Work Not Included...................................................... 7 Interpretation of Technical Requirements............................ 8 Supplier Milestones............................ *.......................... 8 INFORMATION TO BE FURNISHED............................. 9 Documentation........................................................... 9 Shipping Details....................................................... 14 Test Reports............................................................ 14 Progress Reports....................................................... 14 Drawings... ;............................................................ 15 CORRESPONDENCE................................................ 17 GENERAL ADFCS REQUIREMENTS........................... 19 Function................................................................. 19 SPECIFIC REQUIREMENTS....................................... 22 General.................................................................. 22 Seismic Requirements................................................. 22 Control System Functional Requirements.......................... 23 Distributed Control System Technical Requirements............. 25 Control System Mode Transfer Requirements....... *.............. 26 Functional Requirements............................................. 27 Diagnostics............................................................. 27 Page ii of iv

Advanced Digital Feedwater Control System Technical Requirements Revision 6 April 20, 1993 TABLE OF CONTENTS (CONT.)

SECTION DESCRIPTION PAGE NO.

7.0 ELECTRICAL REQUIREMENTS................................. 28 7.1 Circuit Design.......................................................... 28 7.2 Wiring................................................................... 29 7.3 Grounding.............................................................. 31 7.4 Power Supply........................... -............................... 31 7.5 Shielding and Cable Routing Requirements........................ 32 7.6 Noise Protection and Signal Isolation............................... 32 7.7 Enclosures.............................................................. 33 8.0 INSPECTION AND TESTS......................................... 34 8.1 Factory Test...................... *...................................... 34 8.2 Performance Criteria.................................................. 35 9.0 PACKAGING AND SHIPPING.................................... 36 10.0 SUPPLIER/PSE&G RESPONSIBILITIES........................ 37 10.1 Items to be Furnished by Supplier.................................. 37 10.2 Items to be Provided by PSE&G.................................... 38 11.0 REFERENCED STANDARDS..................................... 39 11.1 ANSI......... :.......................................................... 39 11.2 NEMA.................................................................. 39 11.3 Nf'PA................................................................... 39 11.4 AISC..................................................................... 39 11.5 UBC..................................................................... 39 11.6 ASME................................................................... 40 11.7 SAMA................................................................... 40 12.0 DESIGN REVIEW.................................................... 41 13.0

~IMULATOR MODIFICATION................................... 42 14.0 SAFETY AND LICENSING IMPACT............................ 43 Page iii of iv

Advanced Digital Feedwater Control System SECTION ATTACHMENTS 1

2 3

4 FIGURES TABLE OF CONTENTS (CONT.)

DESCRIPTION ADFCS Input/Output List ADFCS Unit 1 Schedule Point-to-Point Database Diskette PSE&G Procedure EGG-012 ADFCS Feedwater/Main Steam Flow Diagram ADFCS Steam Generator Level Control ADFCS Steam Generator Feed Pump Control Technical Requirements Revision 6 April 20, 1993 1

2 3

4 ADFCS Steam Generator Atmospheric Relief Valve Control

Page iv of iv

Advanced Digital Feedwater Control System TECHNICAL REQUIREMENTS 1.0 PROJECT DESCRIPTION 1.1 EQUIPMENT REQUIREMENTS Technical Requirements Revision 2 November 3, 1992 This document covers the furnishing and delivering of an Advanced Digital Feedwater Control System (ADFCS) for one 1158 MW four loop nuclear power plant unit at Salem Unit 1.

The System shall provide a totally integrated control package which shall interface. with other equipment The System shall be furnished complete with all hardware, software, documentation and services required to satisfy the requirements stated in this document The scope shall also includes upgrading the feedwater control system algorithms for the plant simulator.

1.2 SHIPPING DESTINATION The ADFCS shall be shipped to:

Public Service Electric and Gas Company Salem Generating Station

End of Buttonwood Road Hancocks Bridge, New Jersey 08038 The Maintenance Training Systems, Simulator Documentation and Training Material shall be shipped to:

Public Service Electric and Gas Company Nuclear Training Center 244 Chestnut Street Salem, New Jersey 08079 1.3

. SIIlPMENT AND OPERATION Shipment and operation of the ADFCS to be in conjunction with the schedule provided in Attachment 2, ADFCS Unit 1 Schedule.

1.3.1 Delivery

The feedwater control system algorithms for the plant simulator shall be delivered to the NuclearTraining Center by January 15, 1993. The Unit 1 ADFCS shall be shipped to the jobsite and the training equipment shall be shipped to the Nuclear Training Center by August 1, 1993. This date corresponds to the approximate start date of Salem Unit l's training program.

Page 1 of 43

Advanced Digital

' ' Feedwater Control System Technical Requirements Revision 2 November 3, 1992 1.4

1.3.2 Operation

Salem Unit 1 is scheduled to resume commercial operation after its eleventh refueling outage by December 14, 1993. The Control Systems to be furnished will be operated before this date, but will not reach continuous operation at design conditions until return to power after this outage.

REFERENCE DRAWINGS The following drawings are to be as reference drawings only during review of the technical requirements.

Dwg. No.

220000 220029 220030 220031 220032 220033 220034 220035 220036 220037 220038 220039 220040 220041 220042 220043 220044 220045

-220046 220047 220048 220049 220050 220052 220053 220054 Title/Description Reactor Prot. & Process Cont System Interconnection Diagrams, Index Reactor Prot. & Process Cont System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot & Process Cont System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram

. Reactor Prot & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont System S/G Interconnection, Wiring Diagram**

Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnecti~n, Wiring Diagram Reactor Prot & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System S/G Interconnection, Wiring Diagram Reactor Prot. & Process Cont. System SIG Interconnection, Wiring Diagram Page2 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 DWg. No.

220055 220056 220059 220060 220119 220120 220125 220126 220203 220226 613072 613074 613076 613078

'513121 613122 613123 613124 613125 613126 613127 613128 Title/Description Reactor Prat. & Process Cont. System SIG Interconnection, Wiring Diagram Reactor Prat. & Process Cont. System SIG Interconnection, Wiring Diagram Reactor Prat. & Process Cont. System SIG Interconnection, Wiring Diagram Reactor Prat. & Process Cont. System SIG Interconnection, Wiring Diagram Control Room Area Process Group 4 Rack 19, Wiring Diagram Control Room Area Process Group 4 Rack 19, Wiring Diagram Control Room Area Process Group 3 Rack 18, Wiring Diagram Control Room Area Process Group 3 Rack 18, Wiring Diagram Control Room Area Process Group 3 Rack 18, Arrangement Control Room Area Process Group 4 Rack 19, Arrangement SIG Feed and Conci, Feedwater Inlet Temp. 1 TA648 Loop Diagram SIG Feed and Cond., Feedwater Inlet Temp. 1TA650 Loop Diagram SIG Feed and Cond., Feedwater Inlet Temp. 1 TA652 Loop Diagram SIG Feed and Cond., Feedwater Inlet Temp. 1 TA654 Loop Diagram SIG Feed and Cond., No. 11 FW Control Vlv. 1lBFl9-AO Loop Diagram SIG Feed and Cond., No. 11 FW Control Vlv. 11BF40-AO Loop Diagram SIG Feed and Cond., No. 12 FW Control Vlv. 12BF19-AO Loop Diagram SIG Feed and Cond., No. 12 FW Control Vlv. 12BF40-AO Loop Diagram

. SIG Feed and Cond., No. 13 FW Control Vlv. 13BF19-AO Loop Diagram SIG Feed and Cond., No. 13 FW Control Vlv. 13BF40-AO Loop Diagram

SIG Feed and Cond., No. 14 FW Control Vlv. 14BF19-AO Loop Diagram SIG Feed and Cond., No. 14 FW Control Vlv. 14BF40-AO Loop Diagram 1.5 DEFINITIONS

1.5.1 Buyer

Public Service Electric and Gas

1.5.2 Supplier

The organization which designs, engineers, fabricates, inspects, tests and ships the ADFCS and all supporting material to PSE&G to be installed in accordance with the Salem Nuclear Department Purchase Requisition.

1.5.3 System/Control System: Reference to the Advanced Digital Feedwater Control System (ADFCS).

Page3 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 2.0 EXTENT OF WORK 2.1 WORK INCLUDED Supplier shall provide all hardware, software, document11tion, and services required to satisfy these requirements.

2.1.1 The hardware furnished shall fit in the existing PSE&G Process Racks 18 and 19, except the Engineer's Workstation console, and shall include, but not be limited to:

2.1.1.1 Distributed digital control equipment including processors with control programs in non-volatile memory or with 12-hour battery backup, network interface, power supplies, and I/O.

2.1.1.2 Data acquisition, compiling, storage, and calculation equipment, which may be combined with the equipment of these Technical Requirements, Section 2.1.1.1, with sufficient process I/O to meet System requirements.

2.1.1.3 Field terminal blocks permitting PSE&G to terminate field wiring to the Control System without terminating dir'c:ctly to YO cards or card chassis.

The field terminal blocks shall have enough points for the l/0 required per Attachment 1, ADFCS Input/Output List. Additional terminals shall be provided for the future inputs for median signal select for the applicable input signals. All points of cards, both I/O required and spare, shall be wired to terminals. Twenty percent spare terminal blocks shall be provided for PSE&G use.

The terminal blocks shall be mounted at the rear of the I/O card rack. The wiring between cards and terminal blocks shall not interfere with any equipment inside the ADFCS rack (Racks 18 and 19).

Wireway shall be provided for PSE&G field wiring. The Supplier shall leave in place the existing field input terminal blocks and plug/jack assemblies in Racks 18 and 19.

2,1.1.4 Engineer's Workstation console (Westation EngCon, with Laser and Line Printer (Dual CRT), with multiple highway interfacesf.

2.1.1.5 Spare parts, as defined in these Technical Requirements, Section 5.1.1.4.

Spare parts should include, as a minimum, one type of each card supplied with the System for storage in PSE&G folio. This requirement is in addition to the Maintenance Training Systems and the installed spares.

Pag~4 of 43

Advanced Digital Feedwater Control System 2.1.1.6 Technical Requirements Revision 2 November 3, 1992 Two (2) Maintenance Training Systems, each composed of one (1)

ADFCS equipment cabinet with redundant Digital Processing Unit (DPU), redundant data highway interface, and one (1) representative J/O card for each 1/0 card provided with the ADFCS. The Maintenance Training System will be a replication of the ADFCS supplied (Loops A

& B feed.water control plus feed.pump speed demand). The two (2)

Maintenance Training Systems shall also consist of the following:

a.

Enhanced man-machine interface (EMMI) console,

b.

Color graphic/alarm printer,

c.

Appropriate number of auto/manual control stations, and

d.

Appropriate number of indicators.

e.

Ease of portability (mounted on rolling platform).

2.1.2 Software shall include all software required to operate and maintain the ADFCS and Training Equipment as "stand alone" systems. This includes, but is not limited to:

2.1.2.1 All standard software required for System operation, including control, data acquisition, signal conditioning, communications, calculations, and graphics generation.

2.1.2.2 All software required to support and maintain the System including editors, compilers, interpreters, linkers, loaders, etc.

2.1.2.3 All application software necessary for proper operation of the System.

2.1.3 Services furnished for the ADFCS shall include, but not be limited to:

2.1.3.1 System engineering for equipment furnished.

2.1.3.2 Software development necessary to meet the requirements of these Technical Requirements.

2.1.3.3 Complete System documentation including

database, software documentation and hardware documentation: The database shall include terminal block pointers, 1/0 designations, Point ID, 1/0 card assignment, DPU assignment, terminal block assignment, cross reference to point locations on 1/0 drawings, and any other information required for PSE&G to add or modify any task or function.

2.1.3.4 Testing of complete System as required by these Technical Requirements, Sections 8.1 and 8.2.

2.1.3.5 System software loading.

Pages of 43

Advanced Digital Feedwater Control System 2.1.3.6 Technical Requirements Revision 2 November 3, 1992 System training at the PSE&G facility including operator, maintenance, system engineering and system user training. The training scope shall include the delivery of training modules for Licensed Operators and I&C Technicians.

The training modules shall include Learning Objectives, Test Questions, Course Outlines, System Descriptions, Lesson Plans and Job Performance Measures.

Prior to the training course commencement the PSE&G Training Department shall review and approve all training material. PSE&G may video tape the training courses for use as a future training aid for engineers, operators and technicians. Such video taping and use shall not infringe upon the copyright or any other proprietary right of Supplier. The training shall be in four (4) parts:

2.1.3.6.1 Operators training to familiarize PSE&G training instructors with the operation of the System supplied. This shall include instruction in the use of both standard features and features specific to the System supplied.

2.1.3.6.2 Maintenance training for PSE&G technicians to maintain the System. This shall include instruction in both preventative maintenance as well as diagnosing failures in the System to the card level. The technician will be trained to diagnose and repair the problem, initialize the card/System, verify the System's functionality, perform any necessary calibration, and resume normal operation. Training should be directed toward rapid fault detection and component replacement.

2.1.3.6.3 System Engineering personnel and I&C Maintenance personnel training on the WDPF system hardware and software and for the specific ADFCS application. Training shall include both classroom instruction and extensive laboratory time.

2.1.3.6.4 WDPF system user course for those responsible for the generation, initialization and modification of WDPF applications. The course shall describe the general use and functions of the various drops in a WDPF system.

The course shall emphasize the utilization of the EMMI. It shall also include application specific training for the ADFCS, including the PORV operation.

Specific course elements will include the following:

a.

b.

Overview of ADFCS application WDPF system overview Data Highway operation Drop architecture and functions Page6 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 2.2

c.

Program development and modification Engineer's console File Management system Test Editors Problem oriented languages (POL) 2.1.3.7 Licensing support for the required changes including:

Improved Control System Design, Steam Flow/Feed Mismatch Trip Removal, and Replacement of the existing analog based control system for the Atmospheric Relief Valves.

The licensing support required is:

Recommended FSAR revisions, Recommended Tech Spec revisions, Recommended System Description revisions, Draft 10CFR50.59, and Other documentation as required.

WORK NOT INCLUDED Equipment and services specifically excluded from Supplier's responsibility are as follows:

2.2.1 The following equipment will be provided by others:

2.2.1.1 Process sensors and transmitters.

2.2.1.2 NM Stations and meter identical to those presently used in the main control board.

2.2.2 The following services will be provided by others:

2.2.2.1 Regulated electric power, per cabinet, for equipment furnished, in accordance with these Technical Requirements, Section 7.4.1.

2.2.2.2 Unloading, on-site receipt and storage, and installation of equipment.

2.2.2.3 Field wiring from plant equipment to the ADFCS cabinets and termination of interconnecting System cables.

2.3 INTERPRETATION OF TECHNICAL REQUIREMENTS Page 7 of 43

Advanced Digital Technical Requirements Feedwater Control System Revision 2 November 3, 1992 ff Supplier is in doubt as to the meaning of any technical part of these Technical Requirements or of any other associated documents, he may submit a request for an interpretation to Mr. Harold Trenka, Materiel Revitalization Project Manager - Design.

An interpretation of the proposed documents will be made by PSE&G and a copy of the mterpretation will be mailed or delivered to the Supplier. If no requests are made, it is assumed that nothing is unclear or ambiguous.

2.4 SUPPLIER MILESTONES The Supplier shall meet, as a minimum, the following milestones:

Milestone Date

1.

Submit Recommended Licensing Changes Upon Contract Award

2.

Submit Feedwater Control System Algorithms for January 15, 1993 PSE&G Plant Simulator

3.

Submit ADFCS Documentation - Phase I March 2, 1993 (Hardware BOM, all Drawings - Approved by PSE&G, Program Listings, Factory Acceptance Test (FAT) Plan and Procedure, Hardware-In-The-Loop Test Plan, Pre-Op Test Plan, Power Ascension Test Plan) 4.

Submit Training Equipment Documentation March 2, 1993 (Bill of Material, Parts Idenfitication List, Programming Manuals, Program Listings)

5.

Submit ADFCS Documentation - Phase II April 2, 1993 (All manuals, All.drawings - Record Copy, Program Listings)

6.

Submit Certified Test Reports Upon Completion of (FAT, Hardware-In-The-Loop)

Testing

7.

Ship Maintenance Training System August 1, 1993

8.

ShipADFCS August 1, 1993 9.

11 As-Shipped" updates to manuals and drawings September 1, 1993 Page 8 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 3.0 INFORMATION TO BE FURNISHED 3.1 DOCUMENTATION Supplier shall submit to PSE&G for approval by PSE&G, documentation required for design, installation, storage, operation, and maintenance as part of a total verification and validation program. Documentation shall include, but shall not be limited to:

3.1.1 Drawings and Calculations:

The following information shall be submitted in a drawing or calculation format.

This is a minimum set of drawmgs and listing of calculations required by PSE&G to complete the installation design in a timely fashion.

The drawings. and calculations shall include:

3.1.1.1 A list of all drawings, calculations and manuals supplied.

3.1.1.2 System Configuration Drawings showing basic System layout and required interfaces.

3.1.1.3 Electrical Connection Fromff o List showing all interconnecting cables (including quantity, type and size), cable tags, and termination points between all Supplier provided cabinets, consoles, and peripheral equipment. This From{fo List is also to be submitted in a database format in accordance with PSE&G EGG-012. The proper format is provided in Attachment 3, Point-to-Point Database Diskette.

. 3.1.1.4 J./O Tennination Drawings showing field wiring termination by terminal block and terminal block point number.

3.1.1.5 Cabinet Configuration and Rack Loading Drawings showing cabinet layouts including power supplies, interposing relays, and each card type in all card nests.

3.1.1.6 Power and grounding drawings showing power and grounding wiring to all major components, and a complete description of grounding, cabling, and shielding requirements.

Complete information on voltage and power requirements in volts, amps, watts and phase with tolerable deviations and acceptable electrical no1 ~e levels broken down to the major component level as implemented for PSE&G and also voltage and power requirements at each PSE&G interface.

Page 9 of 43

Advanced Digital Feedwater Control System 3.1.1.7 Technical Requirements Revision 2 November 3, 1992 Outline drawings showing panel details, cross-sections, and mounting requirements for Process Racks 18 and 19. These drawings shall show the construction details and material to use. The mounting requirements shall show how equipment is to be mounted.

3.1.1.8 The Supplier shall provide Seismic II/I Qualification Reports to PSE&G for the following:

a.

Rack 18, Rack 19 and the Engineer's Workstation console..

b.

The physical mounting of equipment in Rack 18 and Rack 19.

c.

The Control Equipment Room and Data Logging Room floor due to Rack 18, Rack 19 and the Engineer's Workstation console load changes.

All seismic requirements to be in accordance with Section 6.2.

3.1.1.9 Racks 18 and 19 heat loading calculations.

3.1.1.10 Racks 18 and 19 RFIJEMF requirements.

3.1.2 Manuals

Information required to describe the System that is not submitted in drawing format shall be submitted in manuals. This shall include as a minimum:

3.1.2.1 General

Description:

3.1.2.1.1 A complete description of the System, including layout and overall operation. This is intended for use by operators, technicians, and engineers, as the basic System description.

3.1.2.1.2 Sufficient information to fully describe System capability (e.g., 1/0 point capability, scanning speed, etc., control algorithm loading and duty cycle).

3.1.2.1.3 Complete description of services available (field services, hardware/software training, etc.).

3.1.2.1.4 Bill of Materials for the complete System, including hardware and software.

Page 10 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 3.1.2.2 Hardware

Description:

3.1.2.2.1 Sufficient information to fully describe the operation and capabilities of each node, peripheral, and field I/O Systems supplied. This information shall include a description of the architecture of each node supplied.

3.1.2.2.2 List of recommended spare parts including prices for equipment supplied.

3.1.2.2.3 List of special equipment required for maintenance of equipment proposed (software and hardware).

3.1.2.2.4 Complete description of operator interfaces, including a description of their operations.

3.1.2.2.5 A component description that includes part number (with revisions) delivered, and any jumper or switch setups on equipment supplied.

3.1.2.2.6 Written handling instructions for unloading and moving equipment into the Salem Unit 1 control room.

3.1.2.2.7 Complete infonnation for PSE&G to trouble-shoot the System to the card level.

3.1.2.3 Software

Description:

3.1.2.3.1 For each node, complete description of instruction sets of standard software modules, and nonstandard software unique to PSE&G Systems provided by Supplier.

Software generation packages, debug facilities and other miscellaneous development tools for the Systems are included in this scope, as are control and calculation algorithms, etc.

3.1.2.3.2 Statement defining division of functions and System capability available for PSE&G's use for each node (e.g.,

duty cycles, space, network loading).

3.1.2.3.3 Sample software generation procedure showing steps in taking control functions and graphics to a fully implemented program.

3.1.2.3.4 System Generation and Maintenance Software and Documentation, which provides an integrated and complete description of all procedures required to edit, compile or Page 11 of 43

1-Advanced Digital Technical Requirements Feedwater Control System Revision 2 November 3, 1992 assemble, link edit, install and execute all program modules, both separately and jointly.

3.1.2.3.5 Complete description of database capabilities including building and changing procedure. This includes both on-line and off-line development tools.

3.1.2.3.6 Complete description of software interfaces, including functional flow charts, provided for user's software.

3.1.2.4 Applications Software

Description:

3.1.2.4.1 Complete listing of database, as implemented for PSE&G.

The database shall include a cross reference indicating drawing number and coordinate where each 1/0 point can be located on the Supplier drawing, as well as a field for the field wire designation and terminal locations. Supplier shall maintain these columns. The database is to be provided in an IBM PC-AT compatible database management system format.

3.1.2.4.2 A complete set of applications logic configuration drawings as implemented for PSE&G. A complete description of how the logic was applied shall be included.

3.1.2.4.3 Complete, well documented and commented (preferably in a structured form) listings and configuration specific graphics generation code and function codes. All supplied code shall be in machine readable form.

The graphics shall be reviewed and approved by PSE&G prior to implementation.

. 3.1.3 Supplier shall furnish the following documentation for review and approval by March 2, 1993:

3.1.3.1 For the ADFCS:

3.1.3.1.1 Five (5) copies of the complete hardware Bill of Materials.

3.1.3.1.2 One (1) reproducible tracing, one (1) white print, and one Intergraph file of all drawings.

3.1.3.1.3 Five (5) copies of the program listings.

3.1.3.1.4 Five (5) copies of the Factory Acceptance Test Plan.

Page 12 of 43

Advanced Digital Technical Requirements Feedwater Control System Revision 2 November 3, 1992 3.1.3.1.5 Five (5) copies of the Factory Acceptance Test Procedure.

3.1.3.1.6 Five (5) copies of the Hardware-in-the-Loop Test Plan.

3.1.3.1. 7 Five (5) copies of the Preop Test Plan.

3.1.3.1.8 Five (5) copies of the Power Ascension Test Plan.

3.1.3.2 For the Training Equipment:

3.1.3.2.1 Five (5) copies of the complete Bill of Materials.

3.1.3.2.2 Five (5) copies of the parts identification lists.

3.1.3.2.3 Five (5) copies of ~e programming manuals.

3.1.3.2.4 Five (5) copies of the program listings.

3.1.4 Supplier shall furnish the following documentation for approval by April 2, 1993:

3;1.4.1 For the ADFCS:

3.1.4.1.1 Twenty (20) copies of the installation, operation, maintenance, and programming manuals.

Drawings in instruction books shall not be considered to be in lieu of those that are otherwise required. Manuals shall include data sheets, performance curves, and parts lists.

3.1.4.1.2 One (1) reproducible tracing (blueline), one (1) white print, and one (1) Intergraph file of all drawings.

3.1.4.1.3 Five (5) copies of the program listing.

3.1.5 Five (5) copies of the certified Test Reports for the Factory Acceptance Test and Hardware-in-the-Loop Test upon completion of the testing.

3.1.6 "As-shipped" updates to manuals and drawings shall be shipped no later than one (1) month after System Shipment.

3.2 SIIlPPING DETAILS At least three (3) months prior to shipping, Supplier shall furnish six copies of shipping details including dimensions of components, shipping supports, and gross weights.

3.3 TEST REPORTS Page 13 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 3.4 Prior to shipment, Supplier shall furnish five (5) copies of certified test reports in accordance with these Technical Requirements, Section 8.1.5.

PROGRESS REPORTS A progress report shall be submitted to the Engineer at the first of each month to adequately communicate all pertinent facts on the status of design, custom software development and fabrication of this shipment.

These reports shall continue until shipment of every piece of equipment with final reports on completion of installation and perfonnance tests. There also shall be periodically scheduled meetings held at Supplier's manufacturing site to review progress. Date and attendance of these meetings will be detennined by PSE&G.

Supplier shall designate a single person, representing the Supplier's organization, who

will be responsible for all phases of the project.

3.4.1

The brief monthly reports of project activity shall include as a minimum current infonnation on the following:

3.4.1.1 Engineering infonnation needed by Supplier from PSE&G to proceed with the design and the date that the infonnation is required so as to not affect delivery.

3.4.1.2 Engineering infonnation to be furnished by Supplier to assist PSE&G with System definition, design, and construction.

3.4.1.3 Revised detailed project schedules or other means to adequately indicate status and/or completion of tasks defined on detailed project schedules.

3.4.1.4 Cost incurred for the System to date associated with reimbursable items.

3.4.1.5 Contingencies that may affect design progress, manufacturing progress, or delivery dates.

Pagel4 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 3.5 3.4.2 Weekly Tele Conference Supplier shall call the Buyer weekly to review open action items requiring a response from either party. The time and day for the weekly teleconference will be established upon contract award. The Supplier shall designate a lead for this telecon.

DRAWINGS 3.5.1 Supplier's drawings will be reviewed and approved only as to arrangement and conformance to these Technical Requirements. Approval shall not be construed to relieve or mitigate Supplier's responsibility for accuracy, or suitability of materiais or equipment represented thereon.

3.5.2 After award, Supplier shall submit to PSE&G, for approval by the Engineer, one (1) full size reproducible and one (1) white print of the initial drawings required (i.e., installation, mounting, and field termination details). Supplier's drawings number, revision number, sheet number, and total number of sheets shall appear on each drawing and reproducible tracing. Drawings shall also be delivered in an Intergraph file as specified in PSE&G Technical Standards DE-TS.ZZ-5406(Z) and DE-TS.ZZ-5417(Q).

3.5.3 PSE&G will mark each drawing returned to Supplier with PSE&G's record drawing number.

3.5.4 PSE&G will examine each drawing submitted and will return one complete set with each drawing marked with one of the fqllowing:

3.5.4.1.Approved: Supplier may proceed.

3.5.4.2 Approved: Supplier shall submit final document with marked notations added. Supplier may proceed.

3.5.4.3 Approved Except As Noted: Supplier shall make changes and submit final document. Supplier may proceed as approved.

3.5.4.4 Not Approved: Supplier shall correct and resubmit.

3.5.4.5 Approval Not Required: Supplier may proceed.

3.5.5 After receipt of approved drawings, Supplier shall resubmit one reproducible tracing, one white print, and one Intergraph file of drawing marked "Certified for Construction."

3.5.6 Each reproducible tracing furnished by Supplier shall be made from a clean original tracing of microfilming quality. Final reproducible tracing shall be right Page 15 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 reading photographic mylar, created on a vacuum contact frame. Submittals 11" x 17" or smaller may be on 20-pound white bond paper that can be legibly reproduced on a copying machine.

3.5.6.1 Every detail and figure shall be legible when reproduced from a 35-mm microfilm copy.

3.5.6.2 The criteria for acceptance of reproducible tracing shall be as follows:

3.5.6.2.1 Image: Lines and/or lettering shall be uniform in sharpness and density.

3.5.6.2.2 Lettering: Lettering shall be dense with uniform characters that are open, well-rounded, and uncrowded.

3.5.6.2.3 Background Densities: Background densities shall be uniform across the entire document with good line-to-background contrast If the original tracing was created with paste-up or image transfer material that negates producing a good transmitted light reproduction, the original tracing shall be photographed with reflected light and the mylar created from the resulting negative after retouching.

3.5.6.2.4 Reproducible tracings not accepted by PSE&G shall be returned to Supplier for resubmittal.

3.5.7 Approvals by PSE&G as set forth in the Section shall not release Supplier from any warranty obligations or any other obligations under the Contract.

Page 16 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 4.0 CORRESPONDENCE Correspondence shall bear reference to PSE&G's Purchase Order Number, and Salem Unit No. 1.

Correspondence shall be addressed as follows:

Correspondence Pertaining To:

Engineering Materials Shipping (Weights &

Dimensions incl.)

Engineering:

(Engr.).

Materials:

Construction:

(Constr.)

Send To:

Materials Constr.

UE&C Original Copy Copy Copy Original Copy Copy Copy Original Copy Mr. Harold Trenka Materiel Revitalization Project Manager - Design Public Service Electric and Gas Company Post Office Box 236 End of Buttonwood Road Hancocks Bridge, NJ 08038 Mr. Gene Nagy Materiel Revitalization Project Manager -

Construction Public Service Electric and Gas Company Post Office Box 236 End of Buttonwood Road Hancocks Bridge, NJ 08038 Mr. Gene Nagy Materiel Revitalization Project Manager -

Construction Public Service Electric and Gas Company Post Office Box 236 End of Buttonwood Road Hancocks Bridge, NJ 08038 Page17 of 43

)

Advanced Digital Feedwater Control System UE&C:

Simulator:

Support Materials Maintenance Training:

Systems and Training Programs and Materials Mr. Jules LaMontagne Technical Requirements Revision 2 November 3, 1992 United Engineers and Constructors Salem Revitalization Project Post Office Box 221 End of Buttonwood Road Hancocks Bridge, NJ 08038 Mr. J. Zambuto Public Service Electric and G~ Company Nuclear Training Center 244 Chestnut Street Salem, NJ 08079 Mr. E. Robinson Public Service Electric and Gas Company Nuclear Training Center 244 Chestnut Street Salem, NJ 08079 Page 18 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 5.0 GENERAL ADFCS REQUIREMENTS 5.1 FUNCTION The ADFCS shall provide the control and monitoring capabilities to allow attended operation with minimum operator participation during start-up and over the entire operating and transient range of Salem Unit 1. The System shall operate the unit safely and reliably and shall provide required alarm, control messages, and operator interface.

The ADFCS will supplement existing control hardware and operator's interface for the existing steam generator level control system, the existing feedwater pump master/slave speed control system, and the existing Atmospheric Relief Valve control. The ADFCS shall consist of microprocessor based controllers with dedicated auto/manual stations.

The System shall be designed to be installed in existing Process Racks 18 and 19 located in the Control Equipment Room.

The Engineer's/Maintenance Workstation shall be

1ocated in the Data Logging Room. For an overview of the System functions refer to Figures 1-4.

The controls are being replaced to achieve the following major goals:

1.

2.

3.

4.

5.

6.

Improve operation and control of steam generator level control system.

Reduce steam generator level control system related trips.

Reduce control system maintenance and improve availability and unit capacity factor.

. Improve transient response.

Improve fault tolerance by signal validation.

Incorporate the Atmospheric Relief Valves (MSlO's) control.

5.1.1 Requirements for ADFCS:

5.1.1.1 The System supplied shall be an independent self-contained Control System when installed with existing PSE&G installed plant systems.

5.1.1.2 The System supplied shall have an operator interface designed such that display and control functions required to operate the unit can be performed from AIM stations mounted in the existing main control boards. These AIM stations will be supplied by PSE&G.

5.1.1.3 The System supplied shall be capable of transferring process information to or from sub-systems provided by others. These sub-systems shall include, but not be limited to the main plant annunciator, and plant computer.

5.1.1.4 The System shall be supplied with 1/0 cards which have as a minimum spare capacity to provide future expansion to median signal select for all Page 19 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 applicable input signals and/or 20% spare capacity whichever is greater.

All 1/0 card spare capacity shall be fully prewired for future field connections to the terminal blocks thus requiring no internal wiring changes to the 1/0 cards during future installation.

5.1.1.5 In addition to the requirements set forth herein, the System(s) shall also conform to the Supplier's published WDPF Specifications applicable to the hardware and software delivered.

5.1.1.6 The ADFCS DPF equipment shall implement the S/G PORV control.

The S/G PORV control shall have as a minimum, the following included:

Associated hardware Appropriate functional and hardware/software design documentation and system testing Safety Evaluation Checklist (SECL) and report for FSAR revision Transient analysis considering simultaneous failures of both the feedwater and S/G PORV controllers.

5.1.1.7 The System, shall be supplied with a Test Panel. The layout of the Test Panel shall be reviewed and approved by PSE&G prior to fabrication.

5.1.2 Operation

5.1.2.1 The ADFCS shall be designed for attended operation of the unit.

5.1.2.2 The ADFCS shall be designed for ease of operation during any phase of

<;>peration. The operator will primarily perform pre-start checks and manual valving, then start equipment or sequences and monitor the process from a central location. The Control System shall notify the operator of any conditions or problems affecting ADFCS operation.

5.1.2.3 Manual operation of equipment through the Control System shall be allowed at all times during normal plant operations.

5.1.2.4 Reliability shall be a prime design parameter. The general criterion for redundancy shall be: "The failure of any one System device shall not affect control or monitoring of more than one piece of equipment and shall.not render the System inoperable."

The ADFCS shall provide output contacts to the Salem Annunciator System for alarm failures. Requirements are as shown in Attachment 1, ADFCS Input/Output List.

Page20 of 43

Advanced Digital Feedwater Control System

5.1.3 Environment

Technical Requirements Revision 2 November 3, 1992 5.1.3.1 The Control Systems shall be designed to operate in the control areas as described in the Salem Generating Station Update Final Safety Analysis Report, Section 9.4.

Page21 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 6.0 SPECIFIC REQUIREMENTS 6.1 GENERAL 6.1.1 The Control Systems shall be of industrial quality and suitably designed and installed to permit operation in the environment described in these Technical Requirements, Section 5.1.3. The equipment shall be highly reliable and require a very minimum of maintenance. Reasonable facilities for maintenance and calibration shall be built into the System and equipment.

6.1.2 Supplier's equipment and circuit designs shall utilize industry accepted design practices. Each component, including solid-state devices, transformers, resistors, relays, etc., shall be of a quality, and shall be used in the equipment in a way, that will ensure high reliability, minimum maintenance requirements, and low failure rates.

Ease of maintenance and self-diagnosis to the board level shall be provided.

6.1.3 The ADFCS shall be designed to allow on-line maintenance and repair. Cards shall be replaceable with the ADFCS on line, with the possible exception of the output device, or any card that represents a non-redundant input or output.

Alternately, I/O shall be partitioned so that failed cards can be isolated and replaced at power without upset to the remainder of the System.

6.1.4 Each component shall be operated below its electrical and thermal rated values, taldng into account all possible combinations within the normal allowable operating environments, power source ranges, and transient conditions, as defined in these Technical Requirements.

6.1.5 The System shall be provided with necessary spares for one (1) year of operation.

This shall include as a minimum one (1) year's worth of consumable items, ten percent of each "active" card type or device, with a minimum of one (1), in addition to the cards installed for spare capacity.

6.2 SEISMIC REQUIREMENTS The Supplier is responsible for the Seismic II/I qualification of the existing PSE&G Process Racks 18 and 19 with the new ADFCS hardware and the Engineer's Workstation console. Seismic II/I qualification shall be in accordance with PSE&G Programmatic Standard DE-PS.ZZ-001 l(Q) and its Appendix Al, since specific requirements for the Salem Nuclear Generating Station are not currently available. Section 4.2.3 of the above standard (PSE&G Programmatic Standard DE-PS.ZZ-OOll(Q)) lists the appropriate Salem Station references that are required for the II/I Seismic Analysis.

Page22 of 43

Advanced DigiJal Feedwater Control System Technical Requirements Revision 6 April 20, 1993 6.3 CONTROL SYSTEM FUNCTIONAL REQUIREMENTS

6.3.1 General

The Control System shall include at least the following with additional features as deemed necessary by the Supplier.

6.3.2 Signal Validation:

Each of the variables with two (2) or more redundant inputs used in the Control System must be* validated in real time in some way. Validation failures shall be alarmed. If sufficient validation failures occur to degrade ADFCS operation, such failures shall cause the ADFCS to fail to MANUAL mode. The following is a list of inputs available to the System.

Process Variable N/R SG Water Level W/R SG Water Level Steam Flow Feedwater Flow Feedwater Temperature Steam Generator Pressure Feedwater Header Pressure Turbine 1st Stage Pressure Main Feedwater Valve Position Bypass Feedwater, Valve Position NOTE:

No. of Channels 12, 3/Loop, See Note, below 4, l/Loop 12, 3/Loop 12, 3/Loop 4, l/Steam Generator 4, l/Loop 3

2 4, l/Valve 4, l/Valve Salem Unit 1 is currently licensed to use Steam Generator Narrow Range Level (LT-519, 529, 539 and 549) in conjunction with the reactor trip on low level coincident with steam/feedwater flow mismatch to preclude a control/protection interaction as prohibited by IEEE 279. To fully implement the steam generator level signal validation algorithm, including removal of the mismatch trip, will require a Licensing Amendment Request (LAR). PSE&G intends to submit the LAR on a schedule so that it will be approved by the Nuclear Regulatory Commission when Salem must be returned to commercial operation following installation of the ADFCS. Therefore, the three (3) narrow range level signals for each steam generator shall be wired into the ADFCS. The Median Signal Selector (MSS) for steam generator level shall be fully implemented.

Page 23 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 6 April 20, 1993 The Supplier shall provide an option, to be exercised if the LAR is not approved by the NRC in time to support the Unit 1 restart, to disable the output of the signal validation algorithm and use the existing licensing basis narrow range level channels for control. Validation failures shall be alarmed, but shall not cause the ADFCS to fail to MANUAL. Supplier shall provide instructions to verify that the licensing basis level channel, and not the validated signal, is used for level control.

6.3.3 Critical Control Loops (Failover Capability)

Critical control loops require backup control with automatic failover capability interconnected with the self diagnostics.

The primary controller shall self diagnose a problem, initiate a failover to the secondary controller during the next scan cycle (500 milliseconds maximum), and provide an alarm for the operator. The following are defined as critical to the Steam Generator General Level Control System (FW Flow Control).*

Feedwater Flow Steam Flow Steam Generator Narrow Range Level Steam Generator Wide Range Level Turbine 1st Stage Pressure Feedwater Header Pressure Steam Generator Pressure Feedwater Temperature 6.3.4 As an option(s) the system shall perform the following:

6.3.4.1 The system shall have the ability to control feedwater speed based on level should the Feedwater Header Pressure Transmitter fail (since Feedwater Header Pressure is only one input).

6.3.4.2 The system shall have the capability to automatically close the bypass valve after transfer from low power to high power.

(Present operations require manual closure of the bypass valve after the transfer from low power to high power.) The closure shall be based on a ramp sequence as determined by the supplier.

This ramp sequence will occur after an adequate time period has occurred between the transfer from low power mode to the high power mode.

Page24 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 6.4 DISTRIBUTED CONTROL SYSTEM TECHNICAL REQUIREMENTS 6.4.1 Analog Control and I/0:

6.4.1.1 The Systems shall be designed such that I/O cards can be removed at power without determinating field wiring.

6.4.1.2 The Systems shall be capable of executing analog control at rates appropriate for the dynamic response of the loops controlled.

6.4.1.3 Manual control shall be independent of common node control logic.

Loss of power to System control logic in a node shall not affect manual output capability to final control devices through Auto/Manual stations.

6.4.1.4 Assuming both microprocessors fail, the operator shall be able to control the main and bypass control valves in manual if one AC feed, one I/O power supply, and one Auto/Manual station power supply are operational.

6.4.1.S Provision for reset wind-up prevention to keep the output within limits when the process variable is away from the setpoint for long periods of time, both on the high and low ends of the output range.

6.4.1.6 Provision for cascade control wherein a controller can accept a setpoint from another controller or some other appropriate signal when in cascade mode.

6.4.1.7 The system shall have the capability of remaining in automatic control while normal surveillance testing is performed on an input channel without causing a perturbation of the System.

6.4.2 Systems Communications:

6.4.2.1 Systems communications shall be via redundant data links, with no single common failure mode.

Communications response shall not degrade during plant upsets to where control, data acquisition, and display requirements in this document cannot be met.

The design should include future capacity for connections to the data highway for an integrated computer system and a CRT display.

6.4.3 ADFCS electronics will be located in the Salem Unit 1 Electric Equipment Room. One (1) of the Maintenance Training Systems will be located in the Training Center and the one (1) in the Instrumentation & Control Shop.

6.5 CONTROL SYSTEM MODE TRANSFER REQUIREMENTS Page25 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 The ADFCS shall provide completely automatic control of steam generator level and feedwater pump speed demand over the range of 2o/~ to 100% power. All necessary mode changes shall be automatic and transparent to the operator once automatic mode has been selected. The ADFCS shall maintain level properly damped and stable within 15% of the reference level during normal operating transients to prevent unit trips during such transients. Operating/testing transients include:

a.

5% STEP increase in level setpoint at 5 percent power (testing transient),

b.

5% STEP increase in level setpoint at 10 percent power (testing transient),

c.

Ramp increase from 5 to 10 percent power at +/-1 percent/minute (operating transient),

cl.

Roll main turbine at 8 percent power (operating transient),

e.

Synchronize main turbine at any power level between 10% and 20% (operating transient), and

f.

Any other load increase or decrease within the rated operating limits of the Nuclear Steam Supply System (NSSS) (operating transient).

6.5.1 Transfer between auto and manual modes of the AUTO/MANUAL Control Station shall be bumpless and balanceless to eliminate excessive valve perturbations.

6.5.2 Capability shall be provided for the operator to override an automatic mode of operation at any time.

6.5.3 Capability 'shall be provided to alert the operator of a failure from automatic to manual mode by annunciation on the plant annunciator system.

Page26 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 6.6 6.7 FUNCTIONAL REQUIREMENTS Supplier shall be responsible for sizing the Control Systems to perform all functions required by these Technical Requirements.

DIAGNOSTICS The Equipment furnished under these Technical Requirements shall have built-in self-check:ing features which identify malfunctions down to the card level. The Engineer's Workstation CRT indication shall include accumulated data highway error count including a tabulation of the errors generated by each node.

Page27 of 43

i--

1 I

Advanced Digital Feedwater Control System 7.0 ELECTRICAL REQUIREMENTS Technical Requirements Revision 2 November 3, 1992 7.1 CIRCUIT DESIGN The following requirements apply to the ADFCS equipment.

7.1.1 State-of-the-art techniques shall be used throughout. Components shall be solid state except where non-solid state devices are necessary or would result in improved reliability. Those devices that are not solid state shall be identified for Engineer's approval.

7.1.2 Assembly shall be plug-in modular construction, and the variety of logic cards shall be minimized.* Modules and cards shall be individually etched or permanently painted with board type. Each card nest shall be provided with a rack loading drawing defining the card.type in each slot.

7.1.3 On printed circuit cards, sharp edges and pointed corners shall be avoided. Cards shall be adequately braced in order to preclude open circuits due to vibration or stresses introduced in normal operation during the insertion or removal of boards.

Card and plug connector tolerances shall be designed to assure proper alignment of the contacts.

Bracings shall also prevent possible deformation due to operating temperature changes.

7.1.4 Sockets and plugs for the ADFCS shall be gold flashed for increased resistance to oxidation and decreased electrical resistance. Where sockets and plugs are not gold-flashed ~d this is not part of the standard ADFCS design, PSE&G shall be notified in writing.

7.1.5 Electronic components used in the System* circuitry shall be operated well below their electrical and thermal limits to insure reliability and long life.

No component shall operate at more than fifty percent (50%) of its nominal power rating during normal operation. Redundant power supplied that normally share the total load and operate at less than fifty percent (50%) of rating may carry up to one hundred percent (100%) of their rating when one (1) of the redundant supplies fails.

7.1.6 Supplier shall be required to supply, completely installed, any signal conditioners and surge suppressors required to make PSE&G's analog input signals, whether milliamp, low voltage, thermocouple or RTD, compatible with their analog input System.

7.2 WIRING Page28 of 43

Advanced Digital Feedwater Control System 7.2.1 Wires:

Technical Requirements Revision 2 November 3, 1992 No asbestos insulated wiring shall be allowed.

The following requirements apply to wiring to field terminal blocks, wiring to devices external to the cabinets, and control panel wiring except coaxial and triaxial cables.

7.2.1.1 Single conductor cables shall be No. 16 A WG orlarger.

7.2.1.2 Individual wires of multiconductor cables shall be No. 18 to 22 A WG or larger if terminated at terminal blocks. MulticonductQr cables fitted with plug connectors at both ends may use 22 A WO wire or larger.

7.2.1.3 Conductors shall be copper with NEMA Class B or C stranding for fixed wiring. Class K stranding, or equivalent approved by PSE&G, shall be used for movable wiring such as across hinges for devices or panels having rotatable mountings.

Solid wire shall not be used without written permission from PSE&G.

7.2.1.4 Insulation and jackets for ADFCS wires/cables, except coaxial and triaxial cable, shall be flame-retardant and self-extinguishing cable insulation. Wires shall be as listed below. If wires are not of the type as listed below, then wire insulation and jacket materials and construction shall be approved by PSE&G. Wires are listed in order of PSE&G preference:

7.2.1.4.1 Tefzel E-TFE fluorplastic or Halon E-CTFE fluorplastic type, UL rated, insulated wire with 20 mils minimum wall thickness.

7.2.1.4.2 Cross-linked polyethylene, flame-retardant, switchboard type wire.

7.2.1.4.3 Ethylene propylene rubber-insulated wire with flame-retardant Hypalon or Neoprene jacket.

Page29 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 7.2.2 Wire Markers:

7.2.3 Each wire or cable shall be tagged at both ends with wire markers bearing Supplier's wire or cable designations. Multiconductor cables terminating at both ends with hood or plug type connectors need only cable markers. Multiconductor cables that terminate at terminal blocks may use color-coded wires instead of wire markers, but cable marker is still required. Wire markers shall be applied in accordance with PSE&G's Acceptance Criteria S-C-EOOO-EFD-0438.

Wire Terminals:

Wire terminals, except for thermocouple wires, shall be copper, tear drop shaped, crimp type in accordance with PSE&G's Acceptance Criteria S-C-EOOO-EFD-0384. The wire tenninals shall be installed with ratchet-type crimping tools as listed in PSE&G's Acceptance Criteria S-C-EOOO-EFD-0384. Termination shall provide a pennanent, mechanically secure, high-conductivity joint.

7.2.4 Terminal Blocks:

7.2.4.1 PSE&G's field wmng shall tenninate on terminal blocks.

Direct termination of wiring to electronic cards shall not be pemiitted, except through the use of quick disconnect hoods.

7.2.4.2 All internal wiring shall be prefabricated and connected to terminal blocks designated for field connections.

Terminal blocks shall be molded screw-type terminal blocks with terminal marking strip and washer-head or binder-head screws.

Tenninal marking strip shall be engraved With Supplier's standard

designations.

7.2.4.3 On analog inputs and outputs a shield termination point for each signal shall be provided for tenninating the signal shield of the field wiring.

7.2.4.4 Thennocouple wires shall be directly terminated to terminal blocks, with cold junction compensation at the terminal block.

7.2.4.5 Wire terminations shall be readily accessible without having to remove entire assemblies from the equipment cabinets.

7.2.4.6 Access to any plugs or components mounted within Racks 18 and 19 shall be designed such that they are readily accessible without requiring any disassembly/determination of components, chassis or field cables.

7.3 GROUNDING Page 30 of 43

Advanced Digital Technical Requirements Feedwater Control System Revision 2 7.4 7.5 November 3, 1992 7.3.1 Each ADFCS System cabinet shall be provided with an electronics ground bus consisting of a 1/8 inch by 1-inch copper bar electrically insulated from the steel structure. Each electronic module instrument ground shall be connected to this bus.

A solderless clamp-type terminal, Burntly Type NA or VVA, shall be provided at one end of the ground bus for connection to PSE&G's ground cable.

The bus bar shall be tapped at 1/2 inch intervals with holes suitable for connection of clamp-type terminals as described in these Technical Requirements, Section 7.2.3.

7.3.2 Each ADFCS System Cabinet shall be provided with a digital power ground copper bus bar. The power ground bus bar shall serve as the single-point return for all Q-line process I/O p-c card load currents.

7.3.3 Each ADFCS System cabinet (Process Rack 18 and 19) shall be provided with a 1/8 inch by 1-inch copper or 1/4 inch by 1-inch aluminum ground bus extending its entire width. The steel structure shall be connected to the bus so as to effectively ground the entire structure. A solderless clamp-type terminal~ Burndy Type NA or VV A, shall be provided at each end of the ground bus at floor level for connection to PSE&G's ground cable.

7.3.4 The cases of instruments and switching devices shall be grounded effectively through the steel structures of the boards.

Mounting screws with star lock washers shall be used to assure good bonding between the case and board. Plain bare metals and tapped mounting holes and screws shall be used.

7.3.5 Not more than two (2) grounding leads.shall be terminated under one (1) screw terminal.

POWER SUPPLY 7.4.1 The following AC sources will be available:

7.4.1.1 Two regulated 11 S volt, single phase, 2 wire, 60 hertz.

7.4.1.2 The AC equipment and devices shall be suitable for continuous operation and satisfactorily perform their prescribed function at +/- 10 percent voltage variation from the equipment or device nominal rating.

7.4.1.3 The total harmonic distortion shall be 5 percent (5%) or less.

7.4.2 The entire System for all phases shall be capable of withstanding a line frequency deviation of 1/2 hertz over and under 60 hertz without malfunction or damage.

SHIELDING AND CABLE ROUTING REQUIREMENTS Supplier shall be responsible for describing the method of effective elimination of all static or inductive noise pickup from any source that may affect equipment performance, Page31 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 including digital datalinks and highways.

PSE&G will follow Supplier's recommendations, and if malfunctions or degradation of performance due to static or inductive noise pickup occurs, then Supplier shall immediately investigate and work with PSE&G to effect a solution. This obligation shall extend to the end of the warranty period. If the problem is due to a design defect, Supplier shall correct it in a prompt manner at its own expense. If the problem is due to incorrectly following Supplier's recommendations, Supplier will be compensated at the field service rate then currently published. Supplier shall also provide the suppon required to respond to NRC questions in this area, if required.

7.6 NOISE PROTECTION AND SIGNAL ISOLATION The equipment shall be designed to operate with interference commonly encountered in power plants, including low energy transient overvoltages in excess of 600 volts. The equipment shall be capable of passing the noise immunity tests described in ANSIJNEMA Standard ICS2-230 and RFI/EFI transmissions.

7.6.1 The Control System will be located in the control equipment room.

7.6.2 Digital inputs and outputs shall be able to withstand sustained.voltages one hundred percent (100%) more than nominal input/output voltage without damage, loss of point, or misoperation. 500-volt AC rms dielectric isolation shall be provided between digital 1/0 input or output terminals and internal System circuits.

7.6.3 Analog inputs shall be capable of withstanding sustained voltages of up to 48 volts DC to 60 hertz and 120 volts AC without damage. Damage shall be limited to a single input conversion card for sustained input voltages of up to 150 volts DC to 60 hertz and 600 volts AC.

7.6.4 Analog outputs shall be capable of withstanding open or shon circuits or over voltages of up to power supply open circuits voltage without damage or loss of point.

7.6.5 Analog and digital 1/0 and their power supplies, when subjected to the ANSI Surge Withstand.Capability (SWC) test wave, shall survive without failure.

7.6.6 Noise on 5 volt logic common return buses* shall not exceed one volt between any two points on the bus or any other logic family connected to it. Noise on 9 to 15 volt* logic Systems, not associated with 5 volt Systems, shall not exceed 3 volts between any two points on the common bus.

Page 32 of* 43

Advanced Digital Technical Requirements Feedwater Control System Revision 2 November 3, 1992 7.6.7 The ADFCS shall not misoperate during RFI testing *over the range of 30-1000 MHz under conditions described in SAMA PMC 33.1, Level 2, with the cabinet doors shut Supplier shall issue a report documenting this test.

7.6.8 Coils on all auxiliary relays shall be furnished with General Electric Company GE-MOVII metal oxide resistor transient voltage protectors, Part No. V150LA2, across the coil.

7.7 ENCLOSURES The Supplier shall equip Racks 18 and 19 with Front/Top mounted exhaust fans and Rear/Bottom door louvers to provide necessary air flow.

The Supplier shall be responsible for the sizing and selection of exhaust fans to maintain proper cabinet cooling. The Supplier shall also provide cooling calculations for Racks 18 and 19 as required in Section 3.1.1.

All outside air cooling fans shall be fitted with dust filters adequate to filter all dust in an "industrial" environment Page33 of 43

Advanced Digital Feedwater Control System 8.0 INSPECTION AND TESTS Technical Requirements Revision 2 November 3, 1992 All equipment to be furnished under these Technical Requirements is subject to PSE&G's inspection and test witnessing. Supplier shall notify PSE&G's Inspector 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months prior to conducting any tests required by these Technical Requirements.

8.1 FACTORYTEST 8.1.1 Equipment groups shall be completely assembled. wired. adjusted, and tested at the factory.

8.1.2 Supplier shall certify that the ADFCS noise protection and signal isolation design meets these Technical Requirements, Section 7.6.

8.1.3 Control System equipment shall be connected and tested in the factory. The test shall demonstrate the proper functioning of System failover, fault tolerance, and signal validation capabilities and correcf operation of each I/O point. After the Supplier has completely loaded and testing the System with the deliverable Salem Unif 1 configuration data, the System shall be subjected to a Factory Acceptance Test.

PSE&G may witness or participate in this test.

During *the Factory Acceptance Test, the System shall demonstrate the capabilities specified in these Technical Requirements, including, but not limited to, system switchover to backup including DPU failover, fault tolerance, signal validation, and the correct operation of each 1/0 point. Supplier shall prepare the Factory Acceptance Test

procedure, to be submitted to PSE&G for approval by March 2, 1993. From the time the hardware is initially powered to the completion of the Factory Acceptance Test, the Supplier shall document that the hardware has been powered for a minimum continuous period of 200 hours0.00231 days 0.0556 hours 3.306878e-4 weeks 7.61e-5 months .

8.1.3.1 PSE&G will provide System AIM Stations to the Supplier four (4) months prior to the Factory Acceptance Test.

8.1.4 The ADFCS control algorithm shall be validated by a Hardware-in-Loop Test in which the ADFCS configuration is loaded into hardware equivalent to the Salem Unit 1 ADFCS but connected to a high accuracy real time dynamic simulation model of the applicable portions of the Salem Unit 1 Nuclear Steam Supply and Balance of Plant Systems. The Hardware-in-Loop test shall verify all ADFCS perfonnance objectives, including, but not limited to fully automated, fault-tolerant, nonnal plant startup from 2% to 100% power and each of the operating transients described in these Technical Requirements, Section 6.5a-f. PSE&G shall be informed at least 1 week in advance of the Hardware-in-Loop Test.

8.1.5 Certified test reports, or equivalent approved by PSE&G, shall be provided for the above Tests. Upon receipt of such certified test reports PSE&G shall release Page34 of 43

. Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 the equipment for* shipment.

releases.

No equipment shall be shipped prior to such 8.2 PERFORMANCE CRITERIA 8.2.1 Preop Testing:

The Supplier shall develop a Preop Test Plan, to be submitted to PSE&G for approval by March 2, 1993. PSE&G shall have the right to request modifications to.$aid test plan before approval.

8.2.1.1 The Supplier shall provide on-site consultation during installation of the DPF control cabinets including support during external connections and system software loading.

8.2.2 Startup (Power Ascension) Testing:

The Supplier shall develop the Startup Test Plan, to be submitted to PSE&G for approval by March 2, 1993.

The operating transients described in these Technical Requirements, Section 6.5 a-f shall be addressed in the Startup Test Plan as a minimum. The test plan shall demonstrate that the ADFCS can control steam generator level in fully automatic mode, without operator intervention, from 2% to 100% power during plant stamip, without a trip occurring due to ADFCS malfunction or misoperation resulting from direction of Supplier's representative.

Data obtained from the Hardware-in-the-Ldop Test shall be used as the baseline criteria for acceptance of the system perfonnance during the Power Ascension Testing.*

8.2.2.1 The Supplier shall provide on-site consultation* to execute the Startup Testing.

8.2.3 The Training Equipment shall be considered accepted upon satisfactory completion of the Factory Tests in accordance with these Technical Requirements, Section 8.1, receipt and installation of the Training Equipment at Salem Unit 1, receipt of all other required Training Equipment deliverables, and successful powerup and operation at the Salem Training Center.

8.2.3.1 As an option, Supplier shall quote for the rental of the Rapid Data Acquisition System (WESTRAC).

Page35 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 9.0 PACKAGING AND SHIPPING The equipment shall be braced adequately and rigidly at the factory so that no damage will occur in transit Shipment shall be via air ride van.

Equipment exteriors and as much as possible of the interiors shall be protected before shipment with plastic sheets or other means approved by PSE&G. This protection shall be sufficient to limit the effect of exposure to the environment during the time between delivery of the equipment and its actual installation.

Packaging, shipping, marking and handling of equipment supplied under these Technical Requirements. shall be in accordance with ANSI Standard N45.2.2, Level B, as a minimum. Written instructions to personnel doing the work shall be used. The written instruction shall be available to PSE&G's Inspector upon request.

Page36 of 43

Advanced Digital Feedwater Control System 10.0 SUPPLIERIPSE&G RESPONSIBILITY 10.1 ITEMS TO BE FURNISHED BY SUPPLIER Technical Requirements Revision 2 November 3, 1992 10.1.1 Supplier shall furnish all hardware as required to meet these Technical Requirements, within the Supplier's scope of work.

Items not specifically mentioned herein, but necessary for a complete System(s) shall be provided by the Supplier within the Supplier's scope of work, as part of this Contract, including, but not limited to, the following:

10.1.1.1 Terminal blocks required to interface with field wiring for inputs and outputs consisting of at least 432 points at each rack.

10.1.1.2 Processors with semiconductor memory and 12-hour battery back-up, power supplies, data highway interface panel, 1/0 cards and test panel.

10.1.1.3 Communication cable between field interface hardware and processors.

10.1.1.4 Engineer's Workstation console, floppy disk drives for System and application software storage, a laser and line printer, and associated interconnecting cables, cabinetry and panels and printer stands with dust/noise cover.

10.1.1.5 Special tools, test equipment, etc., required for installation and maintenance, excluding the typical tools and equipment required for normal electronic equipment maintenance.

10.1.1.6 Hardware, test panels, signal generators, etc. required for the factory acceptance test.

10.1.2 Supplier shall furnish and be responsible for all software required to satisfy these Technical Requirements which includes, but is not limited to, the following:

10.1.2.1 A real-time, multiprogram distributed operating System.

10.1.2.2 Software required to perform the control functions, including programming logic and analog control functions.

10.1.2.3 Software required to drive the alarm contacts.

10.1.2.4 Software required to support process I/O devices (including remote communications) peripheral devices, engineer's interface devices, and intra-System communications and data link handling.

Page37 of 43

Advanced Digital Technical Requirements Feedwater Control System Revision 2 November 3, 1992 10.1.2.5 Software required for the Engineer's Workstation console.

10.1.2.6 Software required for the System security, maintenance, and testing, including all diagnostics.

10.1.2. 7 Supplier's standard software modules including editors, compilers, liners, loaders, and debuggers.

10.1.2.8 Field System software shall be demonstrated as operational during the hardware testing stated in these Technical Requirements, Section 8.0.

10.1.3 Testing:

10.1.3.1 Supplier is responsible for factory and hardware-in-the-loop testing.

10.2 ITEMS TO BE PROVIDED BY PSE&G 10.2.1 Software:

10.2.1.1 PSE&G will be responsible for process 1/0 definition for the Control System. Alternatively, the Supplier may provide PSE&G with an IBM PC-AT compatible database management System with an application spec.ifically tailored for the Supplier's configuration management System. Supplier is responsible for database building and generation for all ADFCS functions.

Page38 of 43

Advanced Digital Feedwater Control System Technical Requirements Revision 2 November 3, 1992 11.0 REFERENCED STANDARDS Furnished equipment. assemblies, and components shall, to the extent possible, comply with all applicable ANSI, IEEE, NEMA and AISC codes and standards. The principle standards referred to are the following:

11.1 ANSI N45.2.2, 1978 C39.1, 1981 C37.2, 1979 C37.1, 1979 C37.90A, 1980 11.2 NEMA ICSI, 1978 11.3 NFPA 70-84 11.4 AISC 11.5 UBC 11.6 ASME American National Standards Institute 1430 Broadway New York, NY 10018 Packaging, Shipping, Receiving, Storage, and Handling of Items for Nuclear Power Plants Requirements for Electrical Analog Indicating Instruments Electrical Power System Device Function Numbers (Partial Revision to ANSI C37.2-70)

Definition, Specifications, and Analysis of Manual, Automatic, and Supervisory Station Control and Data Acquisition Guide for Surge Withstand Capabilities (SWC) Tests National Electrical Manufacturers Association 2101 "L" Street, N.W.

Washington, DC 200027 Industrial Control and Systems National Fire Protection Association Battery March Park Quincy, MA 02269 National Electric Code American Institute of Steel Construction 400 North Michigan A venue Chicago, IL 60611.

Uniform Building Code American Society of Mechanical Engineers Page 39 of 43

Advanced Digital Feedwater Control System IDP-1-85 11.7 SAMA PMC33.1 345 East 47th Street New York, NY 10017 Technical Requirements Revision 2 November 3, 1992 Recommended Practice for Prevention of Water Damage to Steam Turbine Used for Electric Power Generation Scientific Apparatus Makers Association 370 Lexington Avenue New York, NY 10017 Electromagnetic Susceptibility of Process Control Instrumentation Page40 of 43

Advanced Digital Feedwater Control System 12.0 DESIGN REVIEW Technical Requirements Revision 2 November 3, 1992 PSE&G will review the Supplier design installation procedures and documentation according to the milestones outlined in Section 2.4, and approve if satisfactory before additional work is started.

Page 41 of 43

Advanced Digital Feedwater Control System 13.0 SIMULATOR MODIFICATION Technical Requirements Revision 2 November 3, 1992 The Supplier shall provide the updated feedwater control system algorithms to the Salem Plant Simulator to reflect the ADFCS upgrade.

Page42 of 43

Advanced Digital Feedwater Control System 14.0 SAFETY AND LICENSING IMPACT Technical Requirements Revision 2 November 3, 1992 The Supplier shall submit a licensing package suitable for LCR submittals to the NRC, to cover the additions of the ADFCS for Salem Unit 1 modifications and licensing support.

The Supplier shall also provide a licensing package to the NRC for the Steam Flow/Feed Mismatch Trip removal and modifications to SSPS to include the following:

a.

Recommended Technical Specification revision

b.

Recommended FSAR revision

c.

WCAP (Westinghouse Commercial Atomic Power)

d.

Licensing Amendment Requests

e.

Configuration Certification for SG Level

f.

MSS During Design of System Page43 of 43

AITACHMENT 1

PUBLIC SERVICE ELECTRIC AND GAS COMPANY SALEM STATION - UNIT 1 ANALOG FEEDWATER CONTROL SYSTEM REPLACEMENT PROJECT ADFCS INPUT/OUTPUT LIST ADFCS Input!Outpu..st Revision 6 Sheet I of JO

PT. ID.

FUNCTION 1/0 A/D TO LT501

11 SIG LEVEL - WIDE RANGE A

R18 LT501-F1

11 SIG LEVEL - WIDE RANGE A

R18 LT501-F2

11 SIG LEVEL - WIDE RANGE A

R18 LT502

12 SIG LEV~L - WIDE RANGE A

R18 LT502-F1

12 SIG LEVEL - WIDE RANGE A

R18 LT502-F.2

12 SIG LEVEL - WIDE RANGE A

R18 LT503

13 SIG LEVEL - WIDE RANGE A

R18 LT503-F1

13 SIG LEVEL - WIDE RANGE A

R19 LT503-F2

13 SIG LEVEL - WIDE RANGE A

R19 LT504

14 SIG LEVEL - WIDE RANGE A

R18 LT504-F1

14 SIG LEVEL - WIDE RANGE A

R19 LT504-F2

14 S/G LEVEL - WIDE RANGE A

R19 TA648

11 SIG FEEDWATER TEMPERATURE A

R18 TA650

12 SIG FEEDWATER TEMPERATURE A

R18 TA652

13 S/G FEEDWATER TEMPERATURE A

R19 TA654

14 SIG FEEDWATER TEMPERATURE A

R19 PT505 1 ST ST AGE TURB PRESSURE A

R19 PT506 1 ST ST AGE TURB PRESSURE A

R18 PT506-F1 1 ST ST AGE TURB PRESSURE A

R18 LT517

11 SIG LEVEL - NARROW RANGE A

R19 LT518

11 SIG LEVEL - NARROW RANGE A

R18 LT519

1 i SIG LEVEL - NARROW RANGE A

R18 LT527

12 SIG LEVEL - NARROW RANGE A

R19 LT528

12 SIG LEVEL - NARROW RANGE A

R18 LT529

12 SIG LEVEL - NARROW RANGE A

R18 LT537

13 SIG LEVEL - NARROW RANGE A

R19 LT538

13 SIG LEVEL - NARROW RANGE A

R18 LT539

13 SIG LEVEL - NARROW RANGE A

R19 LT547

14 SIG LEVEL - NARROW RANGE

.A R19 LT548

14 SIG LEVEL - NARROW RANGE A

R18 LT549

14 S/G LEVEL - NARROW RANGE A

R19 FT510

11 S/G FEEDWATER FLOW A

R19 FT511

11 S/G FEEDWATER FLOW A

R18 FA3467

11 S/G FEEDWATER FLOW A

R19 FROM R122 FUTURE FUTURE R122 FUTURE FUTURE R122 FUTURE FUTURE R122 FUTURE FUTURE TIC CAB TIC CAB TIC CAB TIC CAB R17 R30 FUTURE R123 R122 R30 R123 R122 R29 R123 R122 R19 R123 R122 R19 R29 R30 R93 ADFCS Input/Ourpu.

.st Arrachment I Revision 5 Sheer 2 of IO SIGNAL INSTR. NO.

TYPE LT501 4 - 20 mA FUTURE 4 - 20 mA FUTURE 4 - 20 mA LT502 4 - 20 mA FUTURE 4 - 20 mA FUTURE 4 - 20 mA LT503 4 - 20 mA FUTURE 4 - 20 mA FUTURE 4 - 20 mA LT504 4 - 20 mA FUTURE 4 - 20 mA FUTURE 4 - 20 mA TA648 1.95 - 14.21 m\\

TA650 1.95 - 14.21 m\\

TA652 1.95 - 14.21 m'v TA654 1.95 - 14.21 m'v PT505 1 - 5 voe PT506 4 - 20 mA FUTURE 4 - 20 mA LT517 4 - 20 mA LT518 4 - 20 mA LT519 4 - 20 mA LT527 4 - 20 mA LT528 4 - 20 mA LT529 4 - 20 mA LT537 4 - 20 mA LT538 4 - 20 mA LT539 4 - 20 mA LT547 4 - 20 mA LT548 4 - 20 mA LT549 4 - 20 mA FT510 4 - 20 mA FT511 4 - 20 mA FA3467 4 - 20 mA

PT. ID.

FUNCTION 1/0 A/D FT520

12 S/G FEEDWATER FLOW A

FT521

12 S/G FEEDWATER FLOW A

FA3468

12 S/G FEEDWATER FLOW A

FT530

13 S/G FEEDWATER FLOW A

FT531

13 S/G FEEDWATER FLOW A

FA3469

13 S/G FEEDWATER FLOW A

FT540

14 S/G FEEDWATER FLOW A

FT541

"#14 S/G FEEDWATER FLOW A

FA3470

14 S/G FEEDWATER FLOW A

FT512

11 S/G STEAM FLOW A

FT513

11 S/G STEAM FLOW A

FA3471

11 S/G STEAM FLOW A

FT522

12 S/G STEAM FLOW A

FT523

12 S/G STEAM FLOW A

FA3472

12 S/G STEAM.FLOW A

FT532

13 S/G STEAM FLOW A

FT533

13 S/G STEAM FLOW A

FA3473

13 S/G STEAM FLOW A

FT542

14 S/G STEAM FLOW A

FT543

14 S/G STEAM FLOW A

FA3474

14 S/G STEAM FLOW A

X-11 BF40

11 S/G FW BYPASS VALVE POSITION A

X-12BF40

12 S/G FW BYPASS VALVE POSITION A

X-13BF40

13 S/G FW BYPASS VALVE POSITION A

X-14BF40

14 S/G FW BYPASS VALVE POSITION A

F/500ECB

11 S/G FW BYPASS VALVE M/A STATION CLOSE D

F/500EOB

11 S/G FW BYPASS VALVE M/A STATION OPEN D

ND5251 M1

11 S/G FW BYPASS VALVE M/A STATION MANUAL!

D ND5251A 1

11 S/G FW BYPASS VALVE M/A STATION AUTO I

D F/500FCB

12 S/G FW BYPASS VALVE M/A STATION CLOSE I

D F/500FOB

12 S/G FW BYPASS VALVE M/A STATION OPEN I

D ND5251M2

12 S/G FW BYPASS VALVE M/A STATION MANUAL!

D ND5251A2

12 S/G FW BYPASS VALVE M/A STATION AUTO I

D F/500GCB

13 S/G FW BYPASS VALVE M/A STATION CLOSE I

D F/500GOB

13 S/G FW BYPASS VALVE M/A STATION OPEN I

D ND5252M3

13 S/G FW BYPASS VALVE M/A STATION MANUAL!

D TO FROM R19 R29 R18 R30 R18 R57 R19 R29 R18 R30 R18 R126 R19 R29 R18 R30 R19 R125 R19 R29 R18 R30 R19 R93 R19 R29 R18 R30 R18 R57 R19 R29 R18 R30 R18 R126 R19 R29 R18 R30 R19 R125 R18 R23 R18 R23 R19 R28 R19 R28 R18 CC2 R18 CC2 R18 CC3 R18 CC3 R18 CC2 R18 CC2 R18 CC3 R18 CC3 R19 CC2 R19 CC2 R19 CC3 ADFCS Input/Outpu.

st Attachment I Revision 6 Sheet 3 of JO INSTR. NO.

FT520 FT521 FA3468 FT530 FT531 FA3469 FT540 FT541 FA3470 FT512 FT513 FA3471 FT522 FT523 FA3472 FT532 FT533 FA3473 FT542 FT543 FA3474 11 BF40-TMTR 1 2BF40-TMTR 13BF40-TMTR 14BF40-TMTR F/500E F/500E ND5251 ND5251 F/500F F/500F ND5251 ND5251 F/500G F/500G ND5252 SIGNAL TYPE 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 niA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 4.- 20 mA 4 - 20 mA 4 - 20 mA 10VDC 10VDC 10 VDC 10VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC N.O. 10 VDC

PT. ID.

FUNCTION 1/0

. A/D ND5252A3

13 S/G FW BYPASS VALVE M/A STATION AUTO I

D F/500HCB

14 S/G FW BYPASS VALVE M/A STATION CLOSE I

D F/500HOB

14 S/G FW BYPASS VALVE M/A STATION OPEN I

D ND5252M4

14 S/G FW BYPASS VALVE M/A STATION MANUALI D

ND5252A4

14 S/G FW BY~ASS VALVE M/A STATION AUTO D

X-11BF19

11 S/G FW MAIN VALVE POSITION A

X-12BF19.

12 S/G FW MAIN VALVE POSITION A

X-13BF19

13 S/G FW MAIN VALVE POSITION A

X-14BF19

14 S/G FW MAIN VALVE POSITION A

F/500EeM

11 S/G FW MAIN VALVE M/A STATION CLOSE D

F/500EOM

11 S/G FW MAIN VALVE M/A STATION OPEN D

F/500EM

11 S/G FW MAIN VALVE M/A STATION MANUAL D

F/500EA

11 S/G FW MAIN VALVE M/A STATION AUTO D

F/500FCM

12 S/G FW MAIN VALVE M/A STATION CLOSE D

F/500FOM

12 S/G FW MAIN VALVE M/A STATION OPEN D

F/500FM

12 S/G FW MAIN VALVE M/A STATION MANUAL D

F/500FA

12 S/G FW MAIN VALVE M/A STATION AUTO D

F/500GeM

13 S/G FW MAIN VALVE M/A STATION CLOSE D

F/500GOM

13 S/G FW MAIN VALVE M/A STATION OPEN D

F/500GM

13 S/G FW MAIN VALVE M/A STATION MANUAL D

F/500GA

13 S/G FW MAIN VALVE M/A STATION AUTO D

F/500HCM

14 S/G FW MAIN VALVE M/A STATION CLOSE D

F/500HOM

14 S/G FW MAIN VALVE M/A STATION OPEN D

F/500HM

14 S/G FW MAIN VALVE M/A STATION MANUAL D

F/500HA

14 S/G FW MAIN VALVE M/A STATION AUTO D

PT508 SIG FEEOWATER PRESSURE A

PA16877 S/G FEEOWATER PRESSURE A

PA16878 S/G FEEOWATER PRESSURE A

F/500MSO S/G FP MASTER M/A STATION SPEED DEC I

D F/500MSI S/G FP MASTER M/A STATION SPEED INC I

D F/500MM S/G FP MASTER M/A STATION MANUAL I

D F/500MA SIG FP MASTER M/A STATION AUTO I

D F/500JSD SIG FP #11 M/A STATION SPEED DEC I

D TO FROM R19 CC3 R19 ec2 R19 CC2 R19 CC3 R19 CC3 R18 11BF19 R18 12BF19 R19 13BF19 R19 14BF19 R18 R126 R18 R126 R18 R126 R18 R126 R18 R57 R18 R57 R18 R57 R18 R57 R19 R126 R19 R126 R19 R126 R19 R126 R19 R51 R19 R51 R19 R51 R19 R51 R19 PNL 464 R19 PNL 464 R19 PNL 464 R19 R19 R19 R19 R19 R19 R19 R19 R19 R19 ADFCS lnput!Outpu..st INSTR. NO.

N05252 F/500H F/500H N05252 N05252 11BF19-TMTR 12BF19-TMTR 13BF19-TMTR 14BF19-TMTR F/500E F/500E F/500E F/500E F/500F F/500F F/500F F/500F F/500G F/500G F/500G F/500G F/500H F/500H F/500H F/500H PT508 PA16877 PA16878 F/500M F/500M F/500M F/500M F/500J Attachment I Revision 6 Sheet 4 o IO SIGNAL TYPE N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.O. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe 4 - 20 mA 4 - 20 mA 4 - 20 mA N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe

ADFCS Input/Outpu..st Artachment I Revision 6 Sheet 5 of JO SIGNAL PT. ID.

FUNCTION 1/0 A/D TO FROM INSTR. NO.

TYPE F/500JSI S/G FP #11 M/A STATION SPEED INC D

R19 R19 F/500J N.o. 10 voe F/500JM S/G FP #11 M/A STATION MANUAL D

R19 R19 F/500J N.O. 10 VDC F/500JA S/G FP #11 M/A STATION AUTO D

R19 R19 F/500J N.O. 10 VDC F/500KBD S/G FP #12 M/A STATION BIAS DEC D

R19 R19 F/500K N.O. 10 VDC F/500KBI S/G FP #12 M/A STATION BIAS INC D

R19 R19 F/500K N.O. 10 VDC F/500KSD S/G FP #12 M/A STATION SPEED DEC D

R19 R19 F/500K N.O. 10 VDC F/500KSI S/G FP #12 M/A STATION SPEED INC D

R19 R19 F/500K N.O. 10 VDC F/500KM S/G FP #12 M/A STATION MANUAL D

R19 R19 F/500K N.O. 10 VDC F/500KA S/G FP #12 M/A STATION AUTO D

R19 R19 F/500K N.O. 10 VDC PT516A

11 S/G STEAM PRESSURE A

R19 R21 PT516A 4 - 20 mA PT526A

12 S/G STEAM PRESSURE A

R18 R20 PT526A 4 - 20 mA PT536A

13 S/G STEAM PRESSURE A

R18 R23 PT536A 4 - 20 mA PT546A

14 S/G STEAM PRESSURE A

Rl9 R26 PT546A 4 - 20 mA P/516C S/G #11 A.R.V. M/A STATION CLOSE D

R19 R17 P/516 N.O. 10 VDC P/5160 SIG #11 A.R.V. M/A STATION OPEN D

R19 R17 P/516 N.O. 10 VDC P/516STD S/G #11 A.R.V. M/A STATION SETPOINT DEC D

R19 R17 P/516 N.O. 10 VDC P/516STI S/G #11 A.R.V. M/A STATION SETPOINT INC D

R19 R17 P/516 N.O. 10 VDC P/516M S/G #11 A.R.V. M/A STATION MANUAL D

R19 R17 P/516 N.O. 10 VDC

PT. ID.

FUNCTION 1/0 A/D P/516A S/G #11 A.R.V. M/A STATION AUTO I

D P/526C S/G #12 A.R.V. M/A STATION CLOSE I

D P/5260 S/G #12 A.R.V. M/A STATION OPEN I

D P/526STD S/G #12 A.R.V. M/A STATION SETPOINT DEC I

D P/526STI S/G #12 A.R.V. M/A STATION SETPOINT INC I

D P/526M S/G #12 A.R.V. M/A STATION MANUAL I

D P/526A S/G #12 A.R.V. M/A STATiON AUTO I

D P/536C S/G #13 A.R.V. M/A STATION CLOSE I

D P/5360 S/G #13 A.R.V. M/A STATION OPEN I

D P/536STD S/G #13 A.R.V. M/A STATION SETPOINT DEC I

D P/536STI S/G #13 A.R.V. M/A STATION SETPOINT INC I

D P/536M S/G #13 A.R.V. M/A STATION MANUAL I

D P/536A S/G #13 A.R.V. M/A STATION AUTO I

D P/546C S/G #14 A.R.V. M/A STATION CLOSE I

D P/5460 S/G #14 A.R.V. M/A STATION OPEN I

D P/546STD S/G #14 A.R.V. M/A STATION SETPOINT DEC I

D P/546STI S/G #14 A.R.V. M/A STATION SETPOINT INC I

D P/546M S/G #14 A.R.V. M/A STATION MANUAL I

D P/546A S/G #14 A.R.V. M/A STATION AUTO I

,o FM500J

11 S/G FW MAIN VALVE (I/Pl 0

A FM500K

12 S/G FW MAIN VALVE (I/Pl 0

A FM500L

13 S/G FW MAIN VALVE (I/Pl 0

A FM500M

#14 S/G FW MAIN VALVE (I/Pl 0

A Fl5008

11 S/G FW MAIN VALVE DEMAND IND.

0 A

Fl500D

12 S/G FW MAIN VALVE DEMAND IND.

0 A

Fl500F

13 S/G FW MAIN VALVE DEMAND IND.

0 A

Fl500H

14 S/G FW MAIN VALVE DEMAND IND.

0 A

FA9242

11 S/G FW MAIN VALVE POSITION IND.

0 A

FA9243

12 S/G FW MAIN VALVE POSITION IND.

0 A

FA9244

13 S/G FW MAIN VALVE POSITION IND.

0 A

TO FROM*

R19 R17 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R18 R23 R19 R17 R19 R17 R19 R17 R19 R17 R19 R17 R19 R17 R18 R18 R1B R18 R19 R19 R19 R19 R18 R18 R18 R18 R19 R19

~

R19 R19 R18 R18 R18 R18 R19 R19 ADFCS lnput/Outpu.

,st Revision 6 Sheet 6 of JO INSTR. NO.

P/516 P/526 P/526 P/526 P/526 P/526 P/526 P/536 P/536 P/536 P/536 P/536 P/536 P/546 P/546 P/546 P/546 P/546 P/546 FM500J FM500K FM500L FM500M Fl5008 Fl500D Fl500F Fl500H FA9242 FA9243 FA9244 SIGNAL TYPE N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.o. 10 voe N.O. 1 o voe N.o. 10 voe N.o. 10 voe 4 - 20 mA 4 - 20 mA 4 - 20 mA 4 - 20 mA 1 - 5 voe 1 - 5 voe 1 - 5 voe

.1 - 5 voe 1 - 5 voe 1 - 5 voe 1 - 5 voe

PT. ID.

FUNCTION 1/0 A/D FA9245

14 S/G FW MAIN VALVE POSITION IND.

0 A

F/500EL 1

11 S/G FW MAIN VALVE AUTO IND.

0 D

F/500FL 1

12 S/G FW MAIN VALVE AUTO IND.

0 D

F/500GL 1

13 S/G FW MAIN VALVE AUTO IND.

0 D

F/500HL 1

14 S/G FW MAIN VALVE AUTO IND.

0 D

F/500EL2

11 S/G FW MAIN VALVE MANUAL IND.

0 D

F/500FL2

12 S/G FW.MAIN VALVE MANUAL IND.

0 D

F/500GL2

13 S/G FW MAIN VALVE MANUAL IND.

0 D

F/500HL2

14 S/G FW MAIN VALVE MANUAL IND.

0 D

FA1

11 S/G FW BYPASS VALVE (I/Pl 0

A FA2

12 S/G FW BYPASS VALVE (I/Pl 0

A FA3

13 S/G FW BYPASS VALVE (I/Pl 0

A FA4

14 S/G FW BYPASS VALVE (I/Pl 0

A FA16857

11 S/G FW BYPASS VALVE DEMAND IND.

0 A

FA16860

1.2 S/G FW BYPASS VALVE DEMAND IND.

0 A

FA16863

13 S/G FW BYPASS VALVE DEMAND IND.

0 A

FA16866

14 S/G FW BYPASS VALVE DEMAND IND.

0 A

FA16858

11 S/G FW BYPASS VALVE POSITION IND.

0 A

FA 16861

12 S/G FW BYPASS VALVE POSITION IND.

0 A

FA16864

13 S/G FW BYPASS VALVE POSITION IND.

0 A

FA16867

14 S/G FW BYPASS VALVE POSITION IND.

0 A

ND5251L1

11 S/G FW BYPASS VALVE AUTO IND.

0

.D ND5251 L3

12 S/G FW BYPASS VALVE AUTO IND.

0 D

ND5252L 1

13 S/G FW BYPASS VALVE AUTO IND.

0 D

ND5252L3

14 S/G FW BYPASS VALVE AUTO IND.

0 D

ND5251 L2

11 S/G FW BYPASS VALVE MANUAL IND.

0 D

N05251L4

12 S/G FW BYPASS VALVE MANUAL IND.

0 D

ND5252L2

13 S/G FW BYPASS VALVE MANUAL IND.

0 D

TO FROM R19 R19 R126 R18 R57 R18 R126 R19 R51 R19 R126 R18 R57 R18 R126 R19 R51 R19 PNL 365 R18 PNL 365 R18 PNL 365 R19 PNL 365 R19 ce2 R18 CC2 R18 eC2 R19 ce2 R19 CC2 R18 CC2 R18 Ce2 R19 C.C2 R19 CC3 R18 CC3 R18 CC3 R19 CC3 R19 CC3 R18 CC3 R18 CC3 R19 ADFCS Input!Outpu. st Attachment I Revision 6 Sheet 7 of JO SIGl\\!AL INSTR. NO.

TYPE FA9245 1 - 5 VDe F/500E N.O. 20 voe F/500F N.o. 20 voe F/500G N.o. 20 voe F/500H N.o. 20 voe F/500E N.o. 20 voe F/500F N.o. 20 voe F/500G N.o. 20 voe F/500H N.o. 20 voe FA1 4 - 20 mA FA2 4 - 20 mA FA3 4 - 20 mA FA4 4 - 20 mA FA16857 1 - 5 voe FA16860 1 - 5 voe FA16863 1 - 5 voe FA16866 1 - 5 voe FA16858 1 - 5 voe FA 16861 1 - 5 voe FA16864 1 - 5 voe FA16867 1 - 5 voe ND5251 N.o. 20 voe ND5251 N.o. 20 voe ND5252 N.o. 20 voe ND5252 N.o. 20 voe ND5251 N.o. 20 voe ND5251 N.o. 20 voe ND5252 N.o. 20 voe

PT. ID.

FUNCTION 1/0 A/D ND5252L4

14 S/G FW BYPASS VALVE MANUAL IND.

0 D

ND16856L

11 S/G LEVEL < LEVEL SETPOINT 0

0 ND16859L

12 S/G LEVEL < LEVEL SETPOINT 0

D ND16862L

13 S/G LEVEL < LEVEL SETPOINT 0

D ND16865L

14 S/G LEVEL < LEVEL SETPOINT 0

D ND16856G

11 S/G LEVEL > LEVEL SETPOINT 0

D ND16859G

12 S/G LEVEL > LEVEL SETPOINT 0

D ND16862G

13 S/G LEVEL > LEVEL SETPOINT 0

D ND16865G

14 S/G LEVEL > LEVEL SETPOINT 0

D LA5048SF

11 S/G STEAM FLOW RECORDER 0

A LA5048FF

11 S/G FEEDWATER FLOW RECORDER 0

A LA5048L

11 S/G LEVEL RECORDER 0

A LA5049SF

12 S/G STEAM FLOW RECORDER 0

A LA5049FF

12 S/G FEEDWATER FLOW RECORDER 0

A LA5049L

12 S/G LEVEL RECORDER 0

A LA5050SF

13 S/G STEAM FLOW RECORDER 0

A LA5050FF

13 S/G FEEDWATER FLOW RECORDER 0

A LA5050L

13 S/G LEVEL RECORDER 0

A LA5051SF

14 S/G STEAM FLOW RECORDER 0

A LA5051FF

14 S/G FEEDWATER FLOW RECORDER 0

A LA5051L

14 S/G LEVEL RECORDER 0

A TA648-Pe

11 S/G FEEDWATER TEMPERATURE 0

A TA650-Pe

12 S/G FEEDWATER TEMPERATURE 0

A TA652-Pe

13 S/G FEEDWATER TEMPERATURE 0

A TA654-Pe

14 S/G FEEDWATER TEMPERATURE 0

A SD2805

11 S/G FP SPEED CONTROL 0

A TO FROM CC3 R19 R18 R1B R18 R18 R19 R19 R19 R19 R18 R18 R18 R18 R19 R19 R19 R19 R18 R18 R18 R18 R18 R18 R18 R18 R18 R18 R18 R18 R19 R19 R19 R19 R19 R19 R19 R19 R19 R19 R19 R19 COMP CAB. 01 R1B COMP CAB. 01 R18 COMP CAB. 01 R19 COMP CAB. 01 R19 R19 R19 ADFCS Input/Outpi.

.st Attachment I Revision 6 Sheet 8 of JO SIGNAL INSTR. NO.

TYPE ND5252 N.o. 20 voe N016856

20 voe ND16859

2a voe ND16862

20 voe ND16865

28 VDe ND16856

20 voe N016859

28 VDe N016862

20 voe ND16865

20 voe LA5048 1 - 5 voe LA5048 1 - 5 voe LA5048 1 - 5 voe LA5049 1 - 5 voe LA5049 1 - 5 voe LA5049 1 - 5 voe LA5050 1 - 5 voe LA5050 1 - 5 voe LA5050 1 - 5 voe LA5051 1 - 5 voe LA5051 1 - 5 voe LA5051 1 - 5 voe P250 1 - 5 voe P250 1 - 5 voe P250 1 - 5 voe P250 1 - 5 voe SD2805 10-50mA

ADFCS lnput/Outpu.

~*r Revision 6 Sheet 9 of JO SIGNAL PT. ID.

FUNCTION 1/0 A/D TO FROM INSTR. NO.

TYPE SD2806

1 2 S/G FP SPEED CONTROL 0

A R19 R19 SD2806 10 - 50 mA F/500ML 1 S/G FP MASTER AUTO IND.

0 D

R19 R19 F/500M N.O. 28 VDe F/500ML2 S/G FP MASTER MANUAL IND.

0 D

R19 R19 F/500M N.O. 20 voe F/500ML5 S/G FP MASTER SPEED INC. IND.

0 D

R19 R19 F/500M N.O. 20 voe F/500ML6 S/G FP MASTER' SPEED DEC. IND.

0 D

R19 R19 F/500M N.o. 20 voe F/500JL 1 S/G FP11 AUTO IND.

0 D

R19 R19 F/500J N.o. 20 voe F/500JL2 S/G FP11 MANUAL IND.

0 D

R19 R19 F/500J N.O. 20 voe F/500JL5 S/G FP11 SPEED INC. IND.

0 0

R19 R19 F/500J N.O. 28 VDe F/500JL6 S/G FP11 SPEED DEC. IND.

0 D

R19 R19 F/500J N.o. 20 voe F/500KL 1 S/G FP12 AUTO IND.

0 D

R19 R19 F/500K N.o. 20 voe F/500KL2 S/G FP12 MANUAL IND.

0 D

R19 R19 F/500K N.o. 20 voe F/500KL5 S/G FP12 SPEED INC. IND.

0 D

R19 R19 F/500K N.o. 28 voe F/500KL6 S/G FP12 SPEED DEC. IND.

0 D

R19 R19 F/500K N.O. 28 VDe Pl508 S/G INLET PRESS. IND.

0 A

R25 R19 Pl508 1 - 5 voe PA14932 FW S/G D/P IND.

0 A

R25 R19 PA14932 1 - 5 VDC PT516APe

11 S/G STEAM PRESSURE 0

A R123 R19 P250 1 - 5 voe PT526APe

12 S/G STEAM PRESSURE

O A

R122 R18 P250 1 - 5 voe PT536APe

13 S/G STEAM PRESSURE 0

A R122 R18 P250 1 - 5 voe PT546APe

14 S/G STEAM PRESSURE 0

A R123 R19 P250 1 - 5 voe Fl500P S/G FP MASTER SPEED DEMAND IND.

0 A

R25 R19 Fl500P 1 - 5 voe Fl500K S/G FP11 SPEED DEMAND IND.

0 A

R19 R19 Fl500K 1 - 5 voe Fl500M S/G FP12 SPEED DEMAND IND.

0 A

R19 R19 Fl500M 1 - 5 voe SA8393 S/G FP12 DEMAND BIAS IND.

0 A

R25 R19 SA8393 1 - 5 voe l/PARV11

11 MS10 A.R.V. (I/Pl 0

A R17 R19 11MS1 O-eONV 4 - 20 mA l/PARV12

12 MS10 A.R.V. (I/Pl 0

A R23 R18 12MS10-eONV 4 - 20 mA l/PARV13

13 MS10 A.R.V. (I/Pl 0

A R23 R18 13MS10-eONV 4 - 20 mA l/PARV14

14 MS10 A.R.V. (I/Pl 0

A R17 R19 14MS 1 O-eONV 4 - 20 mA Pl516D

11 MS10 A.R.V. DEMAND IND.

0 A

R17 R19 Pl5160 1 - 5 voe Pl526D

12 MS10 A.R.V. DEMAND IND.

0 A

R23 R18 Pl5260 1 - 5 VDe Pl536D

13 MS10 A.R.V. DEMAND IND.

0 A

R23 R18 Pl5360 1 - 5 VDe Pl546D

14 MS10 A.R.V. DEMAND IND.

0 A

R17 R19 Pl546D 1 - 5 voe Pl516e

11 MS10 A.R.V. SETPOINT IND.

0 A

R17 R19 Pl516e 1 - 5 VDe Pl526e

12 MS10 A.R.V. SETPOINT IND.

0 A

R23 R18 Pl526C 1 - 5 voe Pl536C

13 MS10 A.R.V. SETPOINT IND.

0 A

R23 R18 Pl536C 1 - 5 voe

PT. ID.

FUNCTION 1/0 A/D TO Pl546C

14 MS10 A.R.V. SETPOINT IND.

0 A

R17 P/516L 1

11 MS10 A.R.V. AUTO IND.

0

.D R17 P/526L 1

12 MS10 A.R.V. AUTO IND.

0 D

R23 P/536L 1

13 MS10 A.R.V. AUTO IND.

0 D

R23 P/546L 1

14 MS10 A.R.V. AUTO IND.

0 D

R17 P/516L2

11 MS10 A.R.V. MANUAL IND.

0 D

R17 P/526L2

12 MS10 A.R.V. MANUAL IND.

0 D

R23 P/536L2

13 MS10 A.R.V. MANUAL IND.

0 D

R23 P/546L2

14 MS10 A.R.V. MANUAL IND.

0 D

R17 ADFCS-Tl ADFeS TROUBLE 0

D R117 ADFCS-T2 ADFCS TROUBLE 0

D R117 ADFCS-Sl ADFeS SWITCH-TO-MANUAL 0

D R117 ADFCS-S2 ADFCS SWITCH-TO-MANUAL 0

D RlP ADFCS-Fl SPARE ALARM POINT 0

D R117 ADFCS-F2 SPARE ALARM POINT 0

D R117 ADFCS-F3 SPARE ALARM POINT 0

D R117 ADFeS-F4 SPARE ALARM POINT 0

D R117

FAIL SAFE REQUIRED. ALARM ACTUATES WHENEVER THE NORMAL CIRCUITRY BREAKS.

FROM R19 R19 R18 R18 R19 R19 R18 R18 R19 R19 R18 R19 R18 R18

'R18 R19 R19 ADFCS lnput/Outpu.

st Allachment I Revision 6 Sheet JO of JO SIGNAL INSTR. NO.

TYPE Pl546C 1 - 5 VDe P/516 N.O. 28 VDe P/526 N.O. 28 VDe P/536 N.O. 28 VDe P/546 N.o. 20 voe P/516 N.o. 20 voe P/526 N.O. 28 VDe P/536 N.O. 28 VDe P/546 N.O. 28 VDe ANN. B33

125 VDe ANN. B33

125 VDe ANN. B41

125 VDe ANN. B41

125 VDe FUTURE

125 voe FUTURE

125 voe FUTURE

125 voe FUTURE

125 voe

AITACHMENT 2 ADFCS Technical Requirements Revision 6 Page I of 3 PUBUC SERVICE ELECTRIC AND GAS COMPANY SALEM STATION - UNIT 1 ANALOG FEEDWATER CONTROL SYSTEM REPLACEMENT PROJECT ADFCS UNIT 1 SCHEDULE

ACTIVITY ACTIVITY m*

DESCRIPTION REM DUR h~l ;~. TRGT ton.

FLT MOSILIZATI PHASE INSTALLATI N £ TESTIHO PHASE D

D 0

0 0 **

ACTIVITY ACTIVITY IO DESalIPTION REM EAll.Y EAll.Y TOTL DUR START FINISH TRGT FLT SALEM REVITALIZATION PROJECT UESC

SUMMARY

SCHEOU.E CMIT I - LEVEL II

ANAROEO NOAK COMPUTER H lllllARE C SOFTlfAAE ENGR THRU DELIVERY ENGIHEERIN & DESIGN PHASE

--* Cl CJ lllJTEO DIGIHEEAS C CONSTIU:TOflS INC.

AITACHMENT 3 ADFCS Technical Requirements Revision 2 Page 1 of 2 PUBUC SERVICE ELECTRIC AND GAS COMPANY SALEM STATION - UNIT 1 ANALOG FEEDWATER CONTROL SYSTEM REPLACEMENT PROJECT ADFCS POINT-TO-POINT DATABASE DISKETTE

ADFCS Technical Requirements Revision 2 Page2 of 2 This page intentionally left blank.

AITACHMENT 4 ADFCS Technical Requirements Revision 2 Page 1 PUBUC SERVICE ELECTRIC AND GAS COMPANY SALEM STATION - UNIT 1 ANAWG FEEDWATER CONTROL SYSTEM REPLACEMENT PROJECT PSE&G PROCEDURE EGG-012

ADFCS Technical Requirements Revision 6 Figures PUBUC SERVICE ELECTRIC AND GAS COMPANY SALEM STATION - UNIT 1 ANALOG FEEDWAT.BR CONTROL SYSTEM REPLACEMENT PROJECT ADFCS FIGURES

I i *'

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'I 14"5167 13HS..

~

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--1UllElllJED EoElllSTlllll 1EY1tE 1U IE USED

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~*.*..

. *1

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X-llBFl'I BFl'I LYDT X-llBF411 BF411 LVDT F'A3471 F1513 F'T512 F'A3467 F'lllll F15111 LTSl'I LT1118 LT1117 LT1llill STM SIGNAL

_S~TM_FUJV~---i V~Tllll STM FUJV SELECTION SllllW.

VllJllATllll

-""-'-='---.i SELECTION SllllW.

VllJllATION

.............. "'--.i SELECTllJN

_P-'-IM'll..SE--~" v:TllJI PDl'U..!lE SELECTION V/R PID LIIV PllWER MllDE STH.PRESS.

FV-PRESS.

'I "' -

FAI I. THIS DI-IS TYPICAL FOO All. STEAH GEIERATOO LOOPS.

CSTEAH Ga£RAT~ NO. ll LOOP IS SHOWN.1 Sf REQRFR

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.. FA'IZ42 DE*~ eum a.

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F'A16851;1 BF4!! 8Jill !Ill.

Ml525\\LI IBI MAMW... DA

Ml525\\l2 f!U!!!!! - AQFCS TRiil.

AIJ'CS-TI flUVl!! - em;s !!It !Ml!!!... AIJ'CS-51 ADVANCED. DIGITAL FEEDWATER CONTROL SYSTEM STEAM GENERATOR LEVEL CONTROL FIGURE 2 PAGE 1 dF 1 REV.

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F/5illlKSI F/5illlKSD F/?5111BKBI F/!ll!lllCBD Fr.illl!JA F.r.!llllJM F l'5llllJSI Fr.illllJSD F/lillllMA F/!iel!HH F/5llllHSl F~

PAl6878 FV PRESS PAl6877 FV PRESS PT5il8 FV ~SS AUTO HllN.W..

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P/516A AUTO P/!H6H HAllJAl P/516STI TPOINT INC.

P/!HSSTD TPOINT DEC.

P/!1160 O'EN P/!1161:

CLOSE PT516A STM PRESS

!!I..

lC FILTER PIO CONTROi.LEA l/PARYll Pr.5160 PISIGC

~li!l 9Ulll llll.

HSJQ HAflW llll l§l!il tLQSE no.

lo P/!1161.1 lo P/5161.2 lo PTSllW'C I. THIS DJA(;IWI IS TYPICT<L FCJI ALL STEAM GEIERATCJI LOOPS.

ISTEAH GEHERATCJI NO. 11 LCJIJ' IS SHOVNJ ADVANCED DIGITAL FEEDWATER CONTROL SYSTEM STEAM GENERATOR ATMOSPHERIC RELIEF VALVE CONTROL

!="!GI IR!=" 4 I PAGF 1 ni=-

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12MS167 llHSl67; STEAH GENERATm FEED PUMP II STEAH GENERATm FEED PUMP 12 E

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N=t£V ~VICE TO BE illDOED R=REPLACE VITH NEV DEVICE E=EXISTING IJE'llCE TO BE USEO.

H=HOOIFY EXISTK DEVICE 9312020252..;_ u l ADVANCED DIGITAL FEEDWATER CONTROL SYSTEM FLOW DIAGRAM FIGURE 1

F/5e0E

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X-llBFl<J tll5251Al 111>5251Hl F'/Sli~OE F"/Sli&JCI X-11BF48 FA3471 FT513 FT512 FA3467 FT5ll FT519 us1q LT518 LT517 PT516 PT515

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LOOPS TA648 LTSlilll BFl<J LVDT BF48 LVDT STH FLOW STH FLOW STH FLOW FV Cl nw FW FLOW FW s:1 OW I C"Vrl N/R l.EYEl N/R I C"Url N/R P IWULSE p IWtLSE FW TEMP FV TEMP FV TEMP FW TEMP LEVEL V/R

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<STEAM GENERATOR N0.11 LOOP IS SHOWN.I Sf RECQRCER FF RECOR1ER LU REmm:a BFICJ DEHANJ llm.

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... lA5848SF

... LA5848FF

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... Fl5ileJB

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... F/500El.2

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... NJ5251L2 ALARM - ADFCS IBBI.-

... AOFCS-TI Al.MM - A!HS Qt tw<<W-... AOFCS-Sl 731202CJ2"32-oz ADVANCED. DIGITAL FEEDWATER CONTROL SYSTEM STEAM GENERATOR LEVEL CONTROL FIGURE 2 PAGE 1 OF 1 REV...

6

F/511JBKA F/511J8KH F/50BKSI F/5elrlKSO F.15e8KBI F.15e8KBO F/581iJJA F/5811JJH F/588.JSI Fl'588.JSD F/588MA F15M+t F/5BfJHS[

F/58111MSO PA16878 PA16877 PT5el8 AUTO S/G FP MASTER AIJTO lt<<J.

F/500Hl.1

~

~~~ED lte. a...

S/G FP MASTER HANUAI... !NO.

F/500Hl2 1&.r---------------------------- ----------------~

S/G FP MASTER FW PRESS FW PRESS FW PRESS AUTO HAt<<JAL nc.

~DEC.

ED lte.

C) '

en a...

IL

<:> ' en ffi I-

<l'I

~

IL.

IL CJ '

<l'I SIGNAL VALIDATION sa.ECTI~

STH.PRESS

+

..---.... _.Pro TROLLER S/G FP 11 SPEED CONTROLLER., S028l1J5 Also AvaHable On Aperture Card SPEED llC, l!'ll.

F/SMt...5 S/G FP MASTER SPEED DEC. ll'Cl.

F/SMt...6 S/G FP 11 AUTO INJ.

.. F/58BJL1 S/G FP 11 HAN.W,.. [NJ.

.. F/5e8Jl.2 SIG FP 11 SPEED & m

.. F.158BJL5 S/G FP 11 SPEED DEC. INJ.

.. F.158BJL6 S/G FP 12 AUTO INJ.

.. F /581!11Q..l S/G FP 12 MAN.JAL IND.

F/500KL2 S/G FP 12 SPEED nc. Jtl),,

.. F/SlelQ..5 S/G FP 12 SPEED [}Ei:;. I~

.. F/5illjj(j_6 S/G INLET

_PRE SS._Jtll,,

., P[5e8 FW S/G D/P INJ.

1

~ PA14q32 S/G FP 12 DEMANJ BIAS INJ... SA83'0 S/G FP 11 SPEED DEHAN> IN>... Fl580i<

S/G FP 12 SPEED DEHAN> IN>.

F[seeH S/G FP MASTER SPEED DEHANJ INJ...

Fl500P 73 !202025 2 ~ 03 ADVANCED DIGITAL FEEDWATER CONTROL SYSTEM STEAM GENERATOR FEED PUMP CONTROL FIGURE 3 PAGE 1 OF 1 REV.

h

,4 l,..

. II;.

... t~y'......... "

~

~~~--------~~----------~----------------------------------~_,..,----~-a--__..._ ______________________________...-:C P/516A P/516H P/516STI -----.C:lETPOINT INC.

~

cnl-------------.

P /516STD TPOJNT DEC.

I:

P/5160 P/516C PT516A

_.HS;;.t,il.UIBwAUm.u.TO~It:fl.s.ra... ____

.. P/5161..l

_.HS"'"""J8._HAMJA1.i;;&IJl]...,.,_.I...,tfl..... ___ _.

... P /5161.2

,..,.MS"""'"'lBuC...,L""'OSE-....l"""!lll...._ ___,,,.

.. PT516APC

1. THIS DIAGRAM IS TYPICAL FOR ALL STEAM GENERATOR LOOPS.

ISTEAH GENERATOR N0.11 LOOP IS SHOWN.>

A.Iso Avaibble On Aperture Card 93120262~2-(}f ADVANCED DIGITAL FEEOWATER CONTROL SYSTEM STEAM GENERATOR ATMOSPHERIC RELIEF VALVE CONTROL FIGURE 4

- ------~l PB_G~ _ 1 OF 1 IR~.

ML18100A719

Contents

Text

1.3.1 Delivery

1.3.2 Operation

1.5.1 Buyer

1.5.2 Supplier

3.1.2 Manuals

Description:

Description:

Description:

Description:

5.1.2 Operation

5.1.3 Environment

6.3.1 General

SUMMARY

Navigation menu

ML18100A719

Text

1.3.1 Delivery

1.3.2 Operation

1.5.1 Buyer

1.5.2 Supplier

3.1.2 Manuals

Description:

Description:

Description:

Description:

5.1.2 Operation

5.1.3 Environment

6.3.1 General

SUMMARY

Navigation menu

Search