Forwards Schedule for Implementation of Emergency Response Data Sys (Erds),Completed Site Survey Including Data Point Library (Dpl) & Plant Attribute Library (Pal)

ML20086E808
Person / Time
Site:	Fort Calhoun
Issue date:	11/22/1991
From:	Gates W OMAHA PUBLIC POWER DISTRICT
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
LIC-91-315R, NUDOCS 9112020328
Download: ML20086E808 (64)
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Omaha Public Power District November 22, 1991 444 South 16th Street Mail LIC-91-315R Omaha. Nebraska 68102-2247 402/636-2000 U. S. Nuclear Regulatory Commission Attn: Document Control Desk Mail 3tation Pl-137 Washington, DC 20555

References:

1, Docket No. 50-285

? 2. Letter from OPPD (W. C. Gates) to NRC (Document Control Desk), dated October 28, 1991, lle-91-264R Gentlemen.

SUBJECT:

Transmittal of Emergency Response Data System Site Survey In accord h e M th the schedule for the impicmentation of the Emergency Resp 1rse Data System (ERDS) as discussed in the above reference, attached is ihe completed Site Survey including the Data Point Library (D?L) and Plant Attributa library (PAL) for the Fort Calhoun Station.

This Site Sarvey (DPL and PAL) provides the information necessary to implement th3 ERDS et Fort Calhoun Station. Any technical questions on this survey or the ERDS implementation can be answered by our ERDS contact person, Mr. T. A. .

Heng at (402) 636-3416.

If you should have any questions, p' ease contact me.

Sincerely, Ab.[r./E6b W. G. Gates Division Manager Nuclear Operations WGG/sel Attachment c: LeBoeuf, Lamb, Leiby & MacRae R. D. Martin, NRC Regional Administrator, Region IV D. L. Wigginton, NRC Senior Project Manager R. P. Mullikin, NRC Senior Resident inspector H. Borchert, Director - Division of Radiological Health, Nebraska Department of Health J. R. Jolicoeur, NRC AEOD T. P. LaRosa, Hallibarton NUS f(

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4' r 9 OlCLOSURE '

ERDS COMMUNI ATIONS DESCRIPT!DN AND SURVEY OVESTIONNAIPE The following is a questionn; ire pertaining to the Nuclear Regulatory Commission's (NRC) Emercency Response Data System (ERDS), it consists of a series of questions c:ncerning plant 1/0 points, sof tware protocols, data formats, transmission f > equencies, and other plant computer specific information to be used in the ER S computer database files. Also, included here are descriptions and examp!;' of data streams that the NRC is expecting to see transmitted over the communication line.

Tne purpose of collecting the data is to develop a plant specific database that will be retrieved into the ERDS once the system is activated by a utility. It will also be used to design and implement ERDS software that can receive the utility's data transmission. In essence, this information will provide the ba:;is for building a profile of the plant in the ERDS database.

In some cases, the I/O point data may be distributed over several computers.

The ERDS considers this situation a multi-feeder site and Section IV must be filled out for each feeder.

4 Rev. 0.A NRC-314 1 N-19 h "

l ENCLOSURE 1 l

I. Contacts Note: Please provide name, title, mailing addiess, and phone number.

A. Survey Coordinator (i e., Con'act for late; clarification of questionnaire answers):

Thomas Heng Senior Nuclear Design Engineer '

444 South 16th Street Mall 7W/EP1 Omaha, NE 68102 (402) 636-3416 B. Computer Hardware Specialist (s):

Dick Campbell Pat Sealock Instrument / Control Coordinator Senior Instument/ Control Technician OPPD Fort Calhoun Station FC-1-2 OPPD Fort Calhoun Station FC-1-2 P.O. Box 399 P.O. Box 399 Fort Calhoun, NE G8023 Fort Calhoun, NE 68023 (402) 533-6673 (402) 533-6673 C. Systems Software Specialist (s):

Matthew Yttri Programmer / Analyst 444 South 16th Street Mall 7W/EP1 Omaha, NE 68102 (402) 636-3427 D. Application-level Software Specialist (s):

Matthew Yttri Programmer / Analyst i 444 South 16th Street Mall 7W/EP1 Omaha, NE 68102 (402) 636-3427 E. Telephone Systems Specialist (s):

James Shores Senior Communications Technician Communications Department 4302 Leavenworth Omaha, NE 68105 (402) 552-5566 i

Rev.0.A NRC-314 2 N-19

ENCLOSURE 1

11. ERDS COMMUNICATIONS DESCRIPTION A Hardware The following hardware will be supplied:

- for a single-feeder site:

Codex 2234 modem -

V.22 2400 bps, asynchronous, auto dialing, auto-answer, error-correcting, using the AT command set

- for a multiple feeder site:

Codex 6015 multiplexer, ,

Codex 2260 modem -

V.32 9600 bps, asynchronous, auto dialing, auto-answer, error-correcting, using the AT command set The modems are intended to be operated in the auto-reliable link mode (referred to as MNP in the modem manuals) with speed conversion and flow control enabled.

Soeed conversion allows the computer to communicate with the modem at a baud rate which is independent of the baud rate the modem is using to communicate with the remote 'odem. This feature is important because the modems have the ability to adjust their transmission rate downward if the remote modem is operating at a lower speed. However, in order to use speed conversion, the site computer must support some form of ' low control. Three types of flow control are supported by the modems: XON/X0FF, RTS/ CTS, and_DTR/ CTS.

All of the .above features are discussed in the modem manuals.

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, Rev. 0.A NRC-314 3 N-19 l .

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ENCLOSURE 1 ,

E B. Software

{

i. Data Traasmissic,,

All transmissions, from both the site and the ERDS, will be terminated with a carriage return (<CR>).

a.

Site will initiate a link request in ASCll using:

l the three-character site designator, the word LINK, local site time and date in, the format MM/DD/YY/HH:MM:SS, and

- a <CR>,

If the site does not receive a response from the ERDS within one minute, it should send another link request message and continue sending them at one-minute intervals. If more than five minutes elapses without a response, site personnel should notify the NRC before disconnecting the line.

b. ERDS will respond in ASCl! with:

the three-character site designator, the word ACCEPTED or DENIED, and a <CR>..

If the ER')S responds with the denied message, the site should wait one minute ar.d then send a 1lnk-request message and continue sending them at one-minute intervals. If more than five minutes elapses without a response, site personnel should notify the NRC before disconnecting the line.

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ENCLOSURE I c.

When.the ERDS is ready to receive data, it will send an initiate message in ASCll using: l I

the three character site designator,

-- the word INITIATE, and a <CR).

If the ERDS does not send an initiate message within one minute of the accept mes: age, the site should send the link request message (described in Section II.B i.a.),

d.

Upon receipt of the initiate message, the plant begins transmission of data at a 15 second rate. The data string consists of:

a header containing the three character site designator and date and time in the format MM/DD/YY/t:H:MM:SS, the data packet sequenced with point identifier, value, and quality tag, a trailer containing the checksum value of the data packet, and a <CR>.

e. When the site or ERDS wishes to terminate the connection, an ASCII message will be sent containing:

the three-character site designator, the word TERMINATE, and a <CR>.

f. If a site is inadvertently terminated (due to loss of ccmmunications or receipt of terminate mes' sage) and the incident is still underway, the site should reconnect with the ERDS by redialing and using the reconnect link request message. This message is in ASCII and will Rev. 0.A- NRC-314 5 N-19 4

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4 ENCLOSURE 1 contain:

the three character site designator.

the word RECONNECT, local site time and date in the format MM/DD/YY/HH:MM:SS, and a <CR).

Upon receipt of this message, the ERDS will respond with the accept and initiate messages as deVribed in Sections !!.B. t and ll.B.i.c.

If the EROS responds with a link deny message (described in Section ll B i.b), the site should stop trying to reconnect and send a link i request message (described in Section ll.B.i.a). .lf the ERDS does not respond to the site's reconnect request within one minute, the site should send another reconnect reques+. and continuc sending reconnect requests once a minute. If more than five minutes elaptes without a response, site personnel should notify tha NRC before disconnecitrig the line. It is the responsibility of the site to monitor the outgoing line '

for loss of communications.

Rev. 0 A NRC-314 N-19 6

. ENCLOSURE 1 ti. Data format The following three delimiters have been identified:

(1) field delimiter (*),

(2) data set delimiter (\), and (3) carriage ret'Jrn (<CR>).

Note:

The length of the messages sent by the ERDS (e.g., ACCEPTED, DENIED, INITIATE, TERMINATE) are variable and it is recommended that the site software use the data set delimiter as the message delimiter for messages received from the ERDS.

a.

Link requests will be in ASCll as described in II.B.i.a. with each field separated by a field delimiter and the request terminated with a data set delimiter. For example, pal

• LINK *01/12/89/ll: 48:50\<CR).

b.

The ERDS response will be in ASCII as described in ll.B.i.b. with each field separated by a field delimiter and the response terminated with a data set delimiter. For example, pal

• ACCEPTED \<CR).

c. When the ERDS is ready to receive data it will respond in ASCII as described in II.B.i.c with each field separated by a field delimiter "

and the response terminated with a data set delimiter. For example, pal *!NITIATE\<CR).

d.

Data streams will be in ASCII and will consist of three parts (header, data, and trailer) as described in II.B.i.d. with each field separated by a field delimiter and each of the three parts separated by a data set delimiter. For example, Header: pal *01/12/89/ll:50:30\

Data: B21CP004* 0.1'234E+00*3*.....(for each parameter)\

Trailer: 0000056000\<CR>

Rev. 0.A NRC-314 7 N-19

4 ENCLOSURE 1 e.

The point identifier may be up to 12 cnaracters in length,

f. The value may be up to 20 characters in length,

g. The following quality tags will be accepted by the ERDS:

Good =0 Value is within range tolerance for discreet points or input points are within tolerance for composed points.

Off-scan =1 Point is

. currently out of-service.

Suspect =2 Value is not bad yet should not be considered good. This quality will occur primarily on composed values when enough good inputs are present ~ to allow the calculation to be mado yet a bad quality on other inputs may make the result questionable.

Bad -3 Value is not within tolerance for discreet points or calculation of a composed point may not be made due to - the qualities of its inputs.

Unknown =4 No quality indicator available.

Operator Entered =5 Value has been manually entered, overriding the discreet or composed value.

Rev. 0.A NRC-314 N-19 8 i

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ENCLOSURE 1 High Alarm 6 Value is in high alarm.

low Alarm =7 Value is in low alarm, h.

The checksum which accompanies each update set will be an integer value calculated by summing each of the bytes of the transmission, up to and including the dataset delimiter following the body of the update set (the body of the update set being the cortion containing the parameter, value, and quality ind' cations). This integer checksam value will then be encoded into the update set as a 10 digit value, left-padded with zeros as required to fill the 10-digit field. The checksum is the sum of the transmitted bytes.

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The reconnect link request message will be in ASCll as described in Section ll.B.i.f with each field separated by a field delimiter and the request termina' .d with a data set delimiter. For example, pal

• RECONNECT *01/12/89/II: 48: 50\<CD.

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Rev. 0.A NRC-314 9 N 19

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s ENCLOSURE 1 iii. Protocol a.

ERDS will use XON/X0FF to stop, resume, or suspend data transmission for the site.

b. Communication parameters:

- eight data bits

- I stop bit

- parity = none Rev. 0 A- NRC-314 10 N-19 L- .

ENCLOSURE 1 iv. Exceptions Please note any exceptions which must be taken to Section 11 and explain why.

None.

Rev.0.A NRC-314 11 N-19

ENCLOSURE 1 111. SELECTION OF DATA FEEDERS

'A. How many data feeders are there (six maximum)?

One.

B. Identify the selected data feeders and provide the following for each:

(1) a short description of the categories of data points it will provide (e.g., met, rad, or plant data points, by unit) and (2) the rationalt "or selecting it if another system can also provide its categories of data points This feeder is the only system containing met, rad, & plant data points for the ERDS.

C. Which data feeder is the site time determining feeder? This should be the feeder which is providing the majc.*ity of the data points.

OPPD refers to the data feeder as Emergency Rosponse Facility Computer System (ERFCS).

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.Rev. 0. A - NRC-314 12 N-19

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ENCLOSURE 1 IV. DATA FEEDER INFORMATION Note: A new Section IV must be filled out for each feeder system selected.

A. General Questions

i. Identification of Data Feeder

a. What is the name in local parlance giveri to this data feeder (e.g., Emergency Re-sponse Information System)? Please give both the acronym and the words forming it.

Emergency Response Facility Computer System (ERFCS).

b. Is this the site time determining feeder?

Yes,

c. What is the update frequency of this feeder (in seconds)?

Data is updated at varying rates.

Rev.0.A NRC-314 13 N-19

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ENCLOSURE 1 ii. Hardware / Software Environment

a. Identify the manufacturer and model number of the data feeder hardware.

Modular Computer Systems, Inc. (MODCOMP).

b. Indentify the operating system.

M AX IV.

c. What method of timekeeping is implemented on this feeder system (Daylight Sav-ings, Standard, Greenwich)?

Daylight Savings.

d. In what time zone is this feeder located?

Central Standard.

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l Rev.0.A NRC-314 14 N-19

ENCLOSURE 1 lii. Data Communication Details

a. Can this data feeder provide asynchronous serial data communication (RS-232-C) with full-modem control?

Yes.

b. Will this feeder transmit in ASCll or EBCDIC?

ASCll.

c. Can this feeder transmit at a serial baud rate of 2400 bps? If not, at what baud rate can it transmit?

Yes.

d. Does the operating system support XON/XOFF flow control?

Yes.

1. Are any problems foreseen willi the NRC using XON/XOFF to control the transmission of data?

No.

o. If it is not feasible to reconfigure a serial port for the ERDS linkup (i.e., change the baud rate, parity, etc.), please explain why.

Configurations of an ERDS serial port is not expected to be a problem,

f. Can the serial port dedicated to the ERDS be configured so that the NRC need not -

emulate a specific brand of terminal (i.e., can it be configured to be a " vanilla" termi-nal)?

Yes.

Rev. 0. A NRC-314 15 N-19 eww w e

ENCLOSURE 1 .

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g. Do any ports currently exist for the ERDS linkup?

Yes.

1.lf not, is i' possible to add additional ports?

N/A 2.11 yes, will be port be used solely by the ERDS or shared with other nonemergen-cy-time users? Give details.

This port will be used solely for the ERDS.

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l Rev. 0.A - NRC-314 16 N-19

ENCLOSURE 1 iv. Data Feeder Physical Environment and Management

a. Where is the da'a feeder located in terms of the TSC, EOF, and control room?

In the TSC room 109.

b. Is the data feeder protected from loss of supply of electricity?

Yes.

c, is there a human operator for this data feeder?

No.

1. If so, how many hours a day is the feeder attended?

N/A Rev.0.A NRC-314 17 N-19

ENCLOSURE 2 DATA PolNT t!BRARY The Data Point Library is a site-specific database residing on th ERDS corputer w!ich expands upon- the basic information in a typical data point dictionary.

The data _ being displayed at the NRC's Operations Center for the CRDS parameter will be the same as the plant's Emergency Restionse Team's data. ihat is, it will have the same value, timestamp, and be in the same engineering units. This requires that the Operations Center personnel adjust their thinking t) accomodate the plant, functioning in terms of the plant's unique design and communicating with the plant's Response Team in the latter's unique engineering-and operational " language". In order to do this, the Operations Center personnel need information which relates the data both to the plant's design and to the manner in which the plant's team utilizes and reacts to the data. I The types of information contained in the Data Point Library are the data point identifier, description, engineering units, range, alarms and/o- technical specification limits and engineering system data. There will be one record in the plant's Data Point Library for each data point the plant will be sending to the ERDS. '

Because the point! selected for transmission to the ERDS are indicative of plant

" health" and are associated with Critical Safety functions, they ae the indicators the plant's Response Team uses to determine the proper actions to take to mitigate an incident. Where required and useful, the Data Point Library will present t xtual information to the Operations Center user to provide information supplementing the point's value which will be useful in understanding how the

_ plant team interprets the data. For instance, associated with a tr.nsmitted data point representing the reactor vessel level,_ the Data Point Library should contain the physical zero reference point, conversion factor for the height above the top of active fuel, type of detectors, effects of running reactor coolant

_ pumps, effects of cold calibration, ' effects of elevated containment temperature,.-

j etc. Associated with a reactor water storage tank level transmitted . as a percentage should be the capacity-of that tank in gallons, number-of reactor Quality water storage tanks at the plant site, zero reference point conversion factor from percent to gallons, etc.

Rev. 0.A NRC-314 N-19 I c-, , -h-

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_... ENCLOSURE ?

-The Data-Point Library will be particularly useful to the Operations Center user when evaluating the plant's action in predicting off site radioactive-releases.

Associated with ~an effluent gaseous release data point expressed in CPM, the Data '

Point Library Reference-Sheet should indicate the assumptions regarding isotopic mix,'the current calibration factors of detectors, the discharge point or points for monitored releases, expected stack flow rates under various fan combinations, and any default values used by the plant team in their calculations.

Two examples of typical Data Point Library entries are included. The first is an example for a BWR and the second is an example for a PWR.

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Rev, 0.A NRC-314 2 N-19 9 e

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DATA ICINP LIIRARY REPDIEtCE FIIE Paco 1 of 39 thte: 10/16/91 Reactor Unit: Ir1 Data- Forder ERFCS NRC ERDS Paraneter NI POh'D1 R!G Point ID: EXCIW1 Plant-Spec Point Ibsca  % COTE IO nT1 (S.S.,MINICD00RE)

Generic /Cond Desc NUCIEJJ1 INS'IltlMENIS,104ER RNGE Analog / Digital: A Engr Units / Dig States  %

Engr Units Conversion: 1 DIE Mininun Instr Rango 0 Naximum Instr Range: 100 Zero Reference Points N/A Reference Point Notes: N/A PROC or SENS: P Number of Sansors: 8 How Processed: AVG

• 2 Sensor Incations: N/A Alarm / Trip setpoints: NONE NI Detector Power Supply N/A Cut-On Power Invel:

• NI Detector Power Supply. N/A l- Turn-On Power Invel Instrunent Failure Mcxie 104 (0% POYD1)

L Tenperature Ccanpensation N For DP Transmitters 2

( Invel Reference IEg: N/A Unique Systen Desc.: INPUIS mod EXCrY1E C04PLTI'ER POINIS AR002X, AR002Y, BR002X, BR002Y, CR002X, 01002Y, DR0')2X, AND DR002Y i

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l DATA POINT LIIVW W REFERENCE FILE Page 2 of 39 Ihte: 10/16/91 Reactor Unit FEl Ihta Fooder: IllICS NRC ERDS Parameter: NI SOURCE RtG Point ID: AFO4 Plant-Spec Point Desc AVE RFJCIOR POWER Generic /Cond Desc !ACLPAR I!61RlNENIS, SOURCE IWGE Analog / Digital: A Engr Units / Dig States  %

Engr Unita Conversion: IONE Minimum Instr Range: 1 E-8 Maxinun Instr Range 125 Zero Reference Points N/A Refexence Point tbtes: N/A PROC or SENS: P Number of Sansors: 4 liow Processed: AVG

• 2 Fensor Locations: N/A Alarm / Trip Setpoints: PENE NI Detector Power Supply. N/A Cut-On Power Invel :

NI Detector Ptuer Supply N/A Turn-On Power level Instrtment Failure Modo: LOW Tcmperature Caupensation N For DP Transmitters:

Invel Reference Ing: N/A l

(Atique Systen Desc.: INPUIS FRCH EK00RE COFLTTER POINIS AR001, i ER001, CR001 AND DR001. MIEN POWER f

DECREASIN3 GOES 'IO CPS NODE AT 3E-7% POE.

MIEN POWER ItCREASING GOES TO % POWTR AT 3E-5 % PO E .

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IRTA POINT LIBRARY REFERFtCE FILE Page 3 of 39 thte: 10/16/91 Reactor Unit EE1 Ihta Feeder DUES NRC ERDS Partmeter RErT VFS ILV Point ID: RLEVA Plant-Spec Point Desc RF1CIOR VESSEL LEVEL Generic /Cond Desc REAC'IOR VESSEL WATER LEVEL Analog / Digital: A Engr Units / Dig States:  %

Engr Units Conversion: IONE Mininum Instr Range: 0 MaxiJun Instr Range: 100 Zero Reference Point: CCEPLEX Reference Point Ibtes: AT 0%, WATER LVL IS 10" ADOVE PAP PROC or SENS: S Number of Sensors: 1 Hcu Processed: N/A Sensor locations: REcTIOR VESSEL Alarm / Trip Setpoints: 10: 96 IDro: 80 NI Detector Power Supply N/A Cut-On Power Invel NI Detector Power Supply N/A Turn-On Power Invelt Instrument Failure Moder IDW

'Ivmperatum Compensation N For DP Transnitters:

IA msl Reference Leg: N/A Unique Systen Desc.: SERIES OF IIFATED AND UlDIFATED

'IIIERMOCOUPLES. SPDS MODE DEPENDANT AIARM.

USED 'IO MONI'IOR WATER LEVEL IN UPPER HEAD  :

OF RF1CIOR VESSEL. CAILUIATION DONE ON QSPDS A,

DATA POINT LIBRARY REITRI2CE FILE 'Page 4 of 39 rrite: 10/16/91 Reactor Unit'. 101 Data Feeder: ITJCS NRC ERDS Pararnter: 'iTMP CORE EX Point ID: HICET Plant-Spec Point Desc: HIGHEST CORE EXIT TEMP Generic /Cond Desc HIGHEST TEMIERATURE AT 'IHE CORE EXIT Analog /Digita1 A Engr Units / Dig States: DEU F Engr Units Comersion: 10NE Minimum Instr Range: 32

, Maximum Instr Ranges. 2300 Ze b Reference Points N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 28 How Processed:- HIGHEST Sensor locations: CORE EXIT PLE2RM-Alann/ Trip Setpoints: HI 610 NI Detector Power Supply N/A.

Cut-On Power Level:

NI Detector Power Supply N/A Turn-On Power Invel .

Instrument Failure M~de N/A Temperature Cmpensation N For DP Transmitters:

Invel Reference Irg: N/A-Unique Systern Desc.: SPDS PARAMETER WITH MODE DFPENDANT AIARMS.

INPUPS TAKF21 FRCM QSPDS A AND QSPDS 3.

DATA POINP LIBRARY REFIEDCE FIIE Page 5 of 39 Into: 10/16/91 Reactor Unit FCI thta Feoder ERET,3 NRC ERDS Parameter SUB MAIGIN Point ID: CPDGQ Plant-Spec Point Desca CORE EXIT Sinm.TtG gspos Generic /Cond Desc SNIURATION TEMPERNIURE.- HIGHEST CUT Analog / Digital: A Engr Units / Dig States: DEG F Engr Unita Conversion: 10NE Minimum Instr Ranger N/A

}kucimum. Instr Range: N/A Zero Reference Point N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 Iku Processed: IGEST * -1 Sensor locations: N/A Alarm / Trip Setpoints: MODE DEPENDANT NI Detector Power Supply N/A Cut-On Power Invels -

.NI Detector Power Supply N/A Turn-On Power level Instrument Failure Mode N/A Temperature Cmpensation N For DP Transmitters:

Invel Reference laJ N/A Unique Systan Desc.: IIMEST INPUT FRO 4 'IMARCHIA AND 'IMARCETB IS MULTIPLIED BY 1. QSPDS WIIL FI1G SAT MARGIN AS IINALID WHEN COOLDOWN IS INITIATED.

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IRTA FOINP LIHtARY REFERENCE FILE Page 6 of 39.

- Ibte - 10/16/91 Reactor Unit: 101 Data Feeder: ERECS NRC ERDS Paran3ter: CORE FIOV Foint ID: F0114A Plant-Spec Point Desc: CORE CCXIRIT FID4 Generic /Cond Desc: 'IUTAL RF1CIOR COOIR7P FIO9 Analog / Digital . A

- Engr Units / Dig States:  %

Engr Units Conversion: NONE Minin2m Instr Range: 7.5.581 Ruimum Instr Range: 156.86 Zero Reference Points N/A

't Reference Point Notes: N/A PROC or SETS P Number of Sensors: 4 How Processed: N/A Sensor locations: ALL FOUR COOLANP IOCPS Alarm / Trip Setpoints: ID: - 100

- NI Detector Power Supply N/A -

Cut-On Power Invel NI Detector Power Supply- N/A Turn-On Power level

. Instrument Failure Moder ZERO'IlOICATION- a Tauperatum Coupensation N For DP Transmitters:

Ievel Reference Ing:. N/A Unique Systrsn Desc.: NONE P

DATA POINT LIBRARY RLTD1DCE FILE Page 7 of 39 thte: 10/16/91 Reactor thit FCl Data-Feeders . ERFCS NRC D1DS Parannter SG I1 VEL 1/A Point 10: IA911 Plant-Spec Point Desc S1M GEN RC-2A WIDE RA!GE LVL Generic /Cond Desc SITM GDIERATOR A WATER LENEL Analog / Digital: A Fagr Units / Dig States  %

Engr Units Conversion: 10NE Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Reference Point: 'IUBSiff Reference Point Notes: ESSDITIALLY AT BCEOM OF SG i

i- PROC or SD4S: S l

Number of Sensors: 1 164 Processed: . N/A Sensor Incations:- 8'W OF DD, 8'N OF II, ELEV 1002' Alarm / Trip Setpoints t . . HI: 84.7 10: 47.2 NI Detector Po e r Supply N/A Cut-On Powr level

. NI Detector Power Supply N/A Turn-On Powr Ifnel:

(

Instrununt Failure Modes IOSS OF SIGNAL Ternperature Ccapensation Y

- For DP Transmitters:

Invel Feference Ing: WET l-thique Systan Desc.: ESF LEVEL QTANNELS ARE USED TO JCIUATE THE 2 OUT OF 4 MATRIX 10 INITIATE AUX FEEfMATER. VARIABLE LEI 3 = 425 INCHES. SPDS Pl,RAMETD1 WITH LODE DEPHOANT AIlm. DATA

- POINP FTG QSPDS A.

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DATA POINT LIBRARY REFERENCE FILE Page 8 of 39-tute: 10/16/91 Reactor Unit EC1 Data Fee:ler: ERECS NRC ERDS Paramter: SG IIVEL 2/B Point ID: IA912 -

Plant-Spec Point Desc S'IM CEN RC-2B WIDE RAIGE LVL Generic /Cond Desc STEAM GENERA'KR B NNTER LEVEL Analog / Digital: A Engr Units / Dig States:  %

Engr Units Conversion: NONE Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Reference Points- TUBSHT Reference Ibint Notes: ESSENTIAILY AT IX7I'KI4 OF SG PROC or SEtGt S Number of Sensors: 1 Hoa Processed: N/A Sensor Locations: 9'W OF EE, 39'N OF III, ELEV 1000'

-Alarm / Trip Setpoints: HI: 84.7 ID: 47.2 NI Detector Pcuer Supply N/A Cut-On Power Invel:

NI Detector Pcw2r Supply N/A Turn-On Power IRvel Instrument Failure Mode: IOSS OF SIGNAL Tmperature Cmpensation Y For DP Transmitters:

. Iavel Reference Img WEP Unique Systen Desc.: ESF LEVEL OIE'NELS ARE USED 'IO AC'IUATE THE 2 CUP OF 4 MKIRIX 'IO INITIATE AUX FEEDWATER. VARIABLE LEG = 425 INCHES. SPDS PARAMETER WI'IH FODE DEPENDANT ALARM. DATA POINP ETO4 QSPDS A.

4

a thTA ICINP LliVW1Y REfD(DCE FILI Pagu 9 of 39 Dste: 10/16/91 Reactor Units iti

, Dita Fooder DUCS NRC Dl!$ Parannter SG IWES 1/A Point ID: FA913 Plant-Spec Point Desc SIM GES 1C-2A WIDE RA?CE IMSS Generic /Cond Desc: S1 TAM GDIERMUt A PRfdSLEE Analog / Digital: A Engr Units / Dig States: PSIA Engr Units Conversinns IEEE Mininum Instr 16nge: 0 Wiximum Instr Range: 1200 Zero Referunoo Points N/A Reference Ibint !btes: N/A IHOC or SDiS S lArmber of Sansors: 1 Ikw Processed: N/A Sansor Incatians: 8'W OF DD, 7'N OF II, ELEV 1002' Alarm / Trip Setpoints:  !!I 950 10: 550 NI Datoctor Power Supply N/A Cut-On Power Inval:

HI ibtector 1%ut rupply N/A Turn-On Power IIM:i '

Instrunnnt Failurcs Modo: IfES OF SIGW.

Tanperature Caqvansation N For DP Transnittars level heferenco 149: N/A Unique Systen Desc.: SPDS PNWETER WIni MODE DEP. MA"M. IMTA POINT FRCH QSPDS A.

I; r i

DATA ICINP LIIEARY REFIRINC2 FII2 Page 10 of 39 Date: 10/16/91 Roactcir Unit: Ir1 lbta Ibociers IMCS NRC IRDS Parannter: SL,IRESS 2/B lbint 1D PA914 Plant-Spec ' Point Desc: SIM GD1 RC-2B WIDE IWGE PlWSS Generic /Cand Dence SITAM GE2 ERA 10R B IRESSURE Analog / Digital: A Engr thits/ Dig States: PSIA Engr thits Conmrsion: t a lE Mininen Instr Range 0 Maxinum Instr Ibnger 1200 Zero Referenco Points N/A Refemnce Ibint Ibtes: N/A PROC or SDiS S Number of Sensors: 1 Ilow Proctosod: N/A Sansor Incations: 9'M OF EE, 39'N OF III, ELIN 1000' Alann/ Trip Setpoints: III: 950 ID: 550 NT Detector Power Supply N/A Cut-On Power IcVel NI [btoctor Power Supply N/A

' lum-Ch Power Irwel:

Instrumant Failure !*a ie IDSS OF SIGNAL s

Tanpointurn Cmpennation N For DP Traniurdtters:

Invel Reference 14g: N/A thique Systan Ibsc.: SPDS PAIW4F1HR WITH MODE DIT. AIARM. DATA ICINP MO4 QSPDS A.

IATA IOUR LIERARY RFEDIDCE FIIE Page 11 of B Date: 10/16/91  ;

1 Penetor linitt 101 Data }\Kdor ERICS NRC DOS Pamneter MN ID 1% 1/A Point ID: F1101 Plant-Spoc Point Desca STPAM GUI ItC 2A IM nal Generic / Card Desc SIM GDI A 1%1N FEDMNI'fR Mai Analog / Digital: A i Digr thits/ Dig Statos: MIB/lm lhgr thits Conversian IGE ]

Mininun Instr Range 0 ,

Maxinun Inntr Rango: 4 Zero Refenmco Points N/A Reference Point Ibtes: N/A i

PROC or SDtS: S Nanter of Sansors: 1 llow Processode- N/A  :

Sensor locations: - O'W OF E, l'N OF 6D, ILEV 1014' Alarm / Trip Setpoints: N/A NI Dotoctor Power Supply N/A Cut-On Power ILvel:

NI Detector Power Supply N/A Turn-On Power Invels Instrunent Failure Modos ID4 Ttuperature Ccaupensation N For DP Transnitters:

ILvel Referunce Irg: N/A Unique Systan Desc.: lOE

l IWTA IOIt'T LIIRA!W IllTIRDCE FIIE Page 12 of 39 Date: 10/16/91 11oactor Unit 1t1

[hta lhder: DUCS MIC UlDS Paranutor MN FD 112/11 lbint ID: F1102 Plant-Spoc Point Denct STEAt4 GD4 itC 213 IM FIGi Generic /Cand Desca S'1H GD413 MAIN F12niATUt 1104 Analog / Digital: A Engr Units / Dig States MLil/IDI IhJr Units Conversians !OJE Mini:nta Instr Ibnge 0 Maxinun Instr lungo: 4 Zero Hofemnce Ibint N/A Ilef01once Ibint !btes N/A ]

lit 0C or SDiS S Nanter of Sansors: 1 Ikw Processod: N/A Sansor Incations: 0'W OF E, 2'N OF 6D, 121N 103 4 ' l Alann/ Trip Setpoints: N/A NI Detoetor Power Surply N/A Cut-on Iwar Invols .

NI Detector Power Supply N/A ,

Turn-On Pcwor Invol

Instrunent Failuro Modes 101 Tliqperatum Canpensation. N For DP Transmitters level llefeInnce Ing: N/A ,

l Unique Systan Desc.: !ONE i-l

IMTA IOllir LIIVIARY REFIR12CE FIII rage 13 of 39 Ibte: 10/16/91 Ikoctor thit IE1 IMta Ptnlor IRICS

!EC 1RDS Parannter AX ID FL 1/A Ibint ID: F1109 Plant-Spoc Point Desca AIM FILM 'IO PIM GD1 IC-2A Generic /Cand Ibsca S'IM GD1 A AlIXILIARY IW 11LM Analog /Digitalt A Engr thits/ Dig States: GIH Engr thits Conversions  !OE Minimun Instr Itingo: 0 Maxinun Instr Range: 300 Zero Reference Points N/A Reference Point !btes: N/A PROC or SD4S S Number of Sansors: 1 lku Processed: N/A Sensor Iocations: 0'W OF 11, O'N OF 3A, ILIN 1039' Alann/ Trip Setpoints: N/A NI Detector IY_w31 Supply N/A Cut On Power Invel:

NT Detector Pcwar Supply N/A Tum-On Ibar levels Instrurwmt Failure Modes ZERO I!DICATION

'Itsgerature Ccanpomsation N For DP Transnitters:

Level Reference Irg N/A linique Systrsa Desc. : DKrA POI!If FTEN QSPDS A.

WhSLST&MA --

IATA IOINI' IJillW1Y ltlTIR12CE F112 Pago 14 of 39 Date: 10/16/91 Ilmctor Unit: IC1 Data Fecdcra FAICS NRC UtDS Parannters AX FD 112/13 lbint ID: F1110 Plant-Spoc Point Desc Ani FIDi '10 ST124 GT24 RC-2B Generic /Cand Desc S1H G121 B AUXILINtY IM FID4 Arnlog/ Digital A Fagr Units / Dig States GIH Engr thits Conversion IKliE Mininun Instr Range: O Paximun Instr Rango 300 Zero Reference Point: N/A Refenmw Point Notes: N/A PROC or SDiS S thmber of Sonsors: 1 Ikw Processed: N/A Sansor locations: 0 ' E OF J , O ' N OF SB, ELEV 1039 '

Alann/ Trip Setpoints: N/A NI Detector lh er Supply N/A Cut-On Pomr Level NI Detector Power Supply N/A Turn-On Power levelt Instnumnt Failure Modes ZERO I!OICAT10tl

'Ituperature Cagxansation N For DP Transmitters:

Irvel Reference Leg: N/A Unique Systan Desc.: DATA IOINI' FlKI4 QSPDS B.

!WTA 10111P laI!VMitY RITDIDCE FI1J: Pago 15 of 39 IMte: 10/16/91 lloactor thits 1t1 lbta Feocier UllCS NRC UtDS Paranetor: IIL TIEP 1/A Pol 1t ID: A'nt1G1 l

Plant-Spec Point Lbsca AVDUCE IUP ILG 'ITEP IOOP 1 Gancric/Corxl Desca S1M GD4 A I!L1?P TIEP9W1UtB 1

Analog / Digital: A Engr thits/ Dig States DIG F Digr thita Conversion: 104E Minimum Instr Itange: 50 liaxinum Instr Itange: 700 Zero Reference Points N/A Reference Point Ibtes: N/A IHOC or SDIS: P 1

hunber of Sensors: -2

!!aw Procespect: AVERIGE Scasor locations: N/A Alam/ Trip Sotpoints: lu1E NI Detector Power Supply N/A Cut-on Power Icwel:

NI Detector Power Supply N/A i Turn-On Power ILvol Instrunent Failum Itxie N/A

'Axuperature Cmpensation N For DP Transmitters:

Invol Reference IIxJa .N/A Unique Systm Desc.: DlICS GENERATED AVDUGE OF IDOP 1 IUr IIG TD4PS, INIVf MG4 TA112fl (HO4 QSPDS A) N4D TB112H (1704 QSPDS B).

- _ - - ._ - _ - -_ . . - - --_. - - .- - -_=

1%TA IOliff LILEARY IEPDR2CE FILE Page 16 of 39 thte: 10/16/91 Reactor thit: TC1 thta Etxxier DeCS NRC CRDS Parameters  !!L 7LVT 2/D Point ID: A11HE2 i

Plant-Spec Point Desc: AYUVGE IK7T IJE TDG 100P 2 Generic / Cord Desca S7M GEN D INLJJr TR@DIA7URE Analog / Digital A l l

Engr Units / Dig States: DIG F Engr Units Conversion 1GE Mininum Instr Range: 50 Maxinum Instr Range: 700 Zein Referenco Point: N/A l Referenco Point Ibtes: N/A ,

l PROC or SENS: P 1 Amber of Sensors: 2 licw Processnd: AVFW GE Sensor locations: N/A Alarm / Trip Setpoints:  !GE NI Detector Power Sqply N/A Cut-On Power Invel NI Detector Poer Supply N/A Turn-On Power Invelt Instrument Failure Mcdo N/A ibuperature Cmpensation N For DP Transmitters:

Invol Reference Irg: N/A Unique Systm Desc.: DUES GE2ERATED AVERIGE OF ILOP 2 IrJr LEG TDTS, INPL11 FTG TA12211 (Fim QSPDS A) AND 1912211 (nm OSPDS D).

1 l

l DATA POI!TP LIDRARY REFERDCE FILE Page 17 of 39 Date 10/16/91 Ikuctor thit ICl Data Pmder IRIES letC 1RDS Paranuter CL TD4P 1/A Point ID: A'ICIG1 Plant-Spoc Point Desc: AV17UGE COLD LIE TEXP IIDP 1 Generic /Cond Desc SIM GDJ A Ol7TIEF TINPIRA'IURE Analog /L.sital: A

. Engr thits/ Dig States DIU F Engr thits Conversions imE Mininum Instr Itange 50 Maxinum Instr Rangos 700 Zero Reference Ibint N/A Referenco Point Ibtes: N/A PROC or SD4S P Nunber of Sensors: 2.

Ibw Processod: AVIRIGE

!kasor Incations: N/A Alaun/ Trip Setpoints: INE NI Detector Power Supply N/A Cut-On Power Invols NI Detoctor Power Supply N/A

'Ibrn-On Power Invel Instrununt Failuro Moder N/A

'ATuperature Cmpensation N For DP Transmitters level Reference Irg N/A thique Syst(sn Dese.: IRFCS GDif2(ATED AVDVCE OF ILOP 1A AND 1B COID LIU TD4PS, INPUT ITG TA112C (MO4 QSPDS A) AND TB112C (MG QSPDS B).

I

_ . _ . , - _ . , ~ . _ . - - - _ . . _ . _ . _ _ _ , . _ . _ , _ . - _ . . - _ . _ - , _ . _ , _. _--,_ . , . _ . , .__ __..

IRTA POINP LIIENtY REFlRDCE FILE Pago 18 of 39 Intas 10/16/91 Renctor thit FC1 i Inta Fooder UlFCS NRC UtDS Parannters CL 'HMP 2/B Point ID: A'ICLG2 Plant-Spuc Ibint Desc: AVDt/CE COID IJE TD4P 100P 2 Generic /Ctn3 Desc SIM GD1 B Ol1PIL'r TMPDIA'1UIE Analog / Digital: A l l

Engr thits/ Dig States DID F Engl. t) nits Conversions trJNU Minimum Instr Range: 50

%1ximma Instr Range: 700 Zero Reference Ibints N/A  :

Referunce Point !btes: N/A ,

IWYJ or SDIS: P Number of Sensors: 2 Iku Procassada AVERICE Sensor locations: N/A Alann/ Trip SetInints: lOE NI Detector Ibwer Supply N/A Cut On-Ibwer Invel .

NI Detector Power Sup,nly N/A-

'Atrn-On Power Invol:

Instrument Failure Mcde N/A

'Ruuperature Canpansation N For DP Transmitters:

Inval Referenco Ing: N/A thique Systan Desc.: D1FCS GENERATED AVDt/GE OF If0P 2A AND 2B COLD IED 'ITMPS, ItHUP MO4 TA122C (FRG4 QSPDS A) AND 'IB122C (17104 OSPDS B) .

l _

IATA IO1NP 1.IIVWlY RITlRDCE FILE lbgo 19 of 39 Ibta 10/16/91 Reactor Unitt 1C1 Ibta Fooder IRICS

!DtC 1RDS Paramtor: RCS 1RESSlRE lbint ID: APItC4 Plant-Spoc Ibint Desc: AVE 1R15SlEIZIR PIUSS Generic /Cond Desc RF1CIOR COO 1Nif SYSTD4 Hll5SURE Analog / Digital: A Engr thdts/ Dig States: PSIA Engr th11ts Conversion: 10JE Mininum Instr Itango: O litxinum Instr Range: 2500 Zern Referenco Point N/A Refemnco Point 110tos: N/A lYtOC or SENS: P Rutter of Sansores 2 itu Procescod: AVDUCE -

Sonsor locations: PRESSURIZER Alarm / Trip Sotpoints: FU4E NI Datector Ihttt Sufply N/A Cut-On Ibwer invol:

NI Detector Ibwer Supply N/A

'Ibrn-01 Iber Invels Instruttent Failuru liode N/A

'nxnperaturo Ccznpansation N For DP Tranranitters:

Invel Referunco log N/A Unique Systcsn D3sc.: IRECS GD4ERATED AVDVGE OF PP.R PRESS INPlTIS FTU4 P105 (Find OSPDS 13) A!ID P115 (FTU4 QSPDS A).

DATA IOllir LIIVWlY RITDU2CE PILE Page 20 of 39 lbto: 10/16/91 React.or thit 101

[hta Fooder: DutS NRC DRE Paranutor: PRZR IJNil Ibint ID: AUC4 Plant-Spoc Point Desc AVE PRESSlHUZD1 IINIL Ceneric/Cond Desc PRI)W1Y SYSTIN PRIESURIZlR 11 nil Analog / Digital: A Engr Units / Dig States:  %

Engr thits Conversions !OJE

11nimum Instr Range: 0 Maximum Instr Range) 100 Zero Referenco Points N/A Referenco Point !btes: N/A PROC or SE2G: P thmiber of Sansors:  ?

Ikw Processod: AVDt/GE Sensor locationLa PRESSURIZD1 Alarm / Trip Setpoints: Inis NI D3trctor Power Supply N/A Cut-On Power ILNel:

NI Detector Power Supply N/A Turn-On Iwur IcW.:

Instruttent Failure Modes li/A Tamperaturu Ccmpens/1 tion N 1br DP Traruunitters:

Invel Reference Ing: N/A thique Systan Dosc. : UlFCS GENERATED AVERIGE OF PZR LINEL INIUPS IME LO101X NJD L0101Y.

i j

DATA POINP LI!YWlY RD'IRDCE FIIE Pago 21 of 39 Date: 10/16/91 Roactor Unit Ir1 Data Ibader: IRIUS MIC IRDS Paranotor RCS OG/MU Ibint ID: F236 Plant-Spec Icint Desc OWGE IU@ DISQWGE FIIM Generic /Cond Desc: PRI}WlY SYSTER OWGI!G Q1 MAKEUP FIIh Analog / Digital: A Engr Units / Dig Statos GPM Engr Units Conversion: Ibne Mininum Instr Range: O Paxinum Instr Rango 200 Zero Reference Ibints N/A Referunco Po!nt Ibtes: N/A PROC or SDiS: S Number of Sensors: 1 lbw Processed: N/A Sensor Incations: Roam 13 Alann/ Trip Setpoints: Iow 30 GPM NI Detector Powr Supply N/A Cut-On Paer Invols NI Detector Power Supply N/A Turn-On Powr Invel Instrunent Failure Mode Ioa

'Ibmperature Cmpensation N For DP Transmitters:

Invel Referenw Ing: N/A thique Systan Dasc.:

DATA IVINP LIIVWlY RIT17tDCE FIIE Page 22 of 39 Ihto 10/16/91 Roactor 011t: Ir1

[hta Fooder: DUCS NRC UlDS Parannter IIP SI MfM Point ID: SI1 IPSI Plant-Spoc Ibint Doscs UUTAL IIIxJI FiO4 Generic /Cond Desce }{IGI PRESSURE SAPIST IiULUTIO4 MDi Analtg/ Digital: A Engr thita/ Dig States: GIH Engr thits Conversion: Squam Root Extration Mininum Instr Rango: 0 Maxian Instr Range: 1200 Zero Refemnce Ibints N/A Reference Point Notos N/A PROC or SDE: P Number of S(xisors: 4 110w Processed: StH Sensor locations: Containamt Elev.1002 Alann/ Trip _ Setpoints: N/A

'NI Detector Power Supply N/A Cut-On Power level:

NI Datector Power Supply N/A Tarn-On Power Invels Instnment Failure Modes - Iow 7tuperature Ccrnpansation N Ibr DP UTansmitters:

Invel Reference Log N/A thique Systru Desc.: INPLTIS F316 M1D F319 FR04 QSIOS A, N4D F313 AND F322 FR04 C6PDS B. EAO! INPlff !!AS A IWCE OF 0 70 300 GPM.

IRTA 10 INT LIIVMRY RIT13tDCE FIII Pago 23 of 39 Date: 10/16/91 Roactor thit Ir1 Data ITxder IJUES NRC ERDS Parannter: LP SI FLOV Ibint ID SFLIGI Plant-Spoc !bint Descs 7 URAL IJGI FIDY Generic /Cond Dose: 101 IEESStRE SAFCIY IfULUTION F101 Analog / Digital: A Engr Units / Dig States: GPM Engr thits Conversion: Sqenm Root f>tration Mininum Instr itango 0 Maxinun Instr Rango 2000 Zero Refemnce Points N/A Reference Point Ibtes: N/A PROC or SENS: P Number of Sensors: 4 Ikw Promssed -St24 Sensor locations: Containnont Elev. 2002 Alarm / Trip Setpoints: N/A NI Detector Pw er Supply N/A Cut-(h Power Inval s .

NI Detector Power Supply N/A Turn-On Power IcVel Instrutrent Failuro Modes 104 Tranperatum Ccrnpensation N For DP Transmitters:

Invel Refemnce Irg N/A Unique Systan Desc, INPUIS F328 NO F332 FTO4 QSPDS A, NO F330 No F334 ITO4 OSPDS B. EACl! INPlTT WLS A IWGE OF 0 70 500 GPM.

l DATA PODir LIIRARY REFIRDCE FILE Page 24 of 39 Dato: 10/16/91 Reactor Unit: Ir1 Data lhder: DUCS NRC 1RDS Parameter CIMtfr SMP NR Point ID: AlanSP Plant-Spec Point Desc AVE CtUMP SlNP LEVEL Generic /Cand Desca COtfrAI!NDIT SIMP NARR0d RAIGE LEVEL Analog / Digital: A Engr Units / Dig States: IN H2O Engr Units Conversions faiE Mininum Instr Range: 5 Maxinum Instr Range: 37 Zero RefeInnce Point N/A Reference Point !btes: N/A PROC or SDJS: P thunber of Sensors: 2 IkM Proceseed: AVERAGE Sensor I.ocations: N/A Alarm / Trip Setpoints: MODE 1- HIHI: 35 HI: 30 NI Detector Ibwer Supply N/A Cut-On Power Imel -

NI Detector Power Supply N/A Turn-On Power IcVels i Instrument Failure Mode N/A Ttrporature Compensation N For DP Transmitters i-Invel Reference Ing: N/A Unique Systen Desc.: DEUS GDfERATED AVERAGE OF COffrAI!NDir SIMP

! 11 VEL, INPtfr HG L599 NiD L600. SPDS PARAMETER WI'lH NODE DEPDMIP ALARM.

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

IRTA POI?(P LIl1WlY RDTRDCE FILE Page 25 of 39 Dato: 10/16/91 Reactor Unit: FE1 Data Pxxiers IREES

' titC DIDS Paranater CIMIP SMP WR Point ID: AIC!TP Plant-Spec Point Dasca AVE CCtTTAI!MDTP WATIR 11VIL Generic /Cond Desc: 00tfrAllMDif SlMP WIDE RAtGE 11V11 Analog / Digital: A Engr Units / Dig States: IT H2O Engr Units Conversian N/A Minian Instr Rango: 0 Maxim a Instr Ranges 27 Zern Reference Point N/A Referents Point !btes: N/A PROC or SDE: P 1Aztber of Sensors: 2 ilow Processed: AVERTGE Sensor T2x:ations: Containment Elev. 994 Alann/'Itip Setpoints: Hi 19.25 HI HI 21.25 NI Detector Power Supply N/A

_ Cut-On POWor Invel NI Detector Power Supply N/A Turn-On Power Invelt Instrument Failure Modes Iow Tmperature Campensation N For DP Transmitters:

Invel Reference Ing: N/A Unique Systen Desc.: INPlffS ARE L387 Ato L388.

l

.. ~ _. . . . , . _ . _

i DNTA POINP LIBRARY REFERD4CE FILE Page 26 of 39 Date: 10/16/91 Rmetor Unit: 101 Data Fooder ERICS NRC EROS Param3ter: EFF GAS FDJ Point ID: RM063H Plant-Spoc Point Desc POST ACCIDDir STACK 104 IIIGI Generic /Cond D3sca RADIOACTIVITY OF RFLFASED GASSFS

- Analtg/ Digital: A Engr Units / Dig States CIM Engr Units Conversion: IDIE Minimtun Instr Range: 10 Maximxn Instr Range 1 14 Zero Referenco Point: N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 i Fbw Processed: N/A Sensor Irx:ations: STACK Alaun/ Trip setpoints: !D4E K atector Power Supply N/A

.Cu .h Power Invel:

NI Detector Power Supply N/A Turn-Cn Power Invelt Instrutent Failttre Modet . IDi

'Itrnporature Campensation N For DP Transanitters:

Ifwel Reference Leg N/A l Unique Systtra Desc.: SDJSITIVITY FACIQt: 2.013 l IVOEROUND CPM: 55.25. OPERATIONAL DIRItG l SIM GD1 'IUBE RUPILRE UCIDDir (MANUALLY j -- INITIATr:o) i

IATA 10INF LIDW1Y IUTERDCE FILE Page 27 of 39 Date: 10/16/91 Reactor Unit: 1C1 Data Foo:ler: DIECS NRC ERDS Parameter EFF LIQ RAD Point ID: RM056A Plant-Spec Point Descs RAW WATER DISOIAIGE 'IO OV Generic /Cand Dese: BADIO CTIVITY OF RELEASED LIQUIDS Analog / Digital: A Engr Units / Dig States: QM Engr Units Con.trsion: IONE Minimum Instr Range 10 Paxinun Instr Rat 19e 1 E6 Zero Reference Point N/A Reference Pcint !btos: N/A PROC or SD S: S n Iber of Smsors: 1 18c a Pn;cocsed: N/A Se scr Iccations: 20" RAW WATER DISOIARGE HEADER Alinn/ Trip Setpoincs: N DIT: 4400 HI: 5500 NI tetector Powr Supply N/A Cu'.-On Power lovel:

N' Detector Power Supply N/A T'rn-On Power 'wA.1:

Iastnment Failuru Moder MONI'IQ1 Il0P

'Ibigerature Cmpensation N For DP Transmitters:

Ievel Reference Log N/A Unique Systen Desc.: SENSITIVITY FAC'IOR: 2.514 E48 BAOnlOU!O CIH: 558

IATA Pollir LIBRARY RFEDIDCE FI!E Page 28 of 39 Date: 10/16/91 i Reactor Unit It1 thta Fooder: D1FtS NRC ERDS Paramotor: A/E RAD Point ID: RM057 Plant-Spoc Point Desc: OCNDDEER OFTGAS FDJI'im Generic /Cond Desc: 00tODEDI AIR FJDC'10R RADIOACTIVITY Analog / Digital: A Engr Units / Dig States: CPM Engr Units Conversions lGE Minimum Instr Range: 10  !

Maxinum Instr Range: 1 E6 Zero Reference Point N/A Reference Point Ibtes: N/A PROC or SDE: S Number of Sensors: 1 How Processed: N/A Sensor Incations: COODEER OFF CAS PIPE Alarm / Trip Setpaints: ALutT: 4000 HI 44,651 NI Detector Power Supply N/A Cut-On Power Invel:

NI Detector Power Sorply N/A Turn-On Power:

Instrunent Failuro Mode MONI'Im DOP Teperature Ccrapensation N For DP Transmitters:

Invel Reference Log: N/A Unique Systr5n Desc.: SENSITIVITY F1CIm 3.923 E+7 BACKGROUND CPM: 83

=

IATA IOllif LIIRARY RITIRDCE FILE Pago 29 of 39 Date: 10/16/91 Reactor Unit Ir1 ruta Foo:ior IRitS NRC IREG Parnauter CIFJif RAD Ibint ID: IM091A Plant-Spoc Point Desc: 03frAllE12ff RADIATIO 1 SOUI11 Generic /Cond Desc: RADIATIQ1 ILVEL IN '11[E COTTAllNDir Analog / Digital: A Engr Units / Dig States: R/IIR Engr Units Conversions ibne Mininum Instr lungo: 1 Maxinamn Instr Ibnget 1 E+7 Zero Referenco Point N/A IMfarenco Point !btes: N/A PROC or SENS: S Number of Sensors: 1 lica Processed: N/A Sensor Incations: Containnent Elev. 1050 Alann/ Trip settnints: ALIRT 2500 HI: 10,000 NI D3tector Power Supply N/A Cut-On Power IcVel:

NI Detector Pcwar Supply N/A Turn-On Poer:

Instrun3nt Failure Fbdos loa W.xature Canpensation N For DP Transmitters.

Invel Reference Irgt N/A Unique Systan Desc.: DNPA POIlff FIG QSPDS A.

IATA IOI!E LIBRARY REFD(DCE FILE Page 30 of 39 Inte 10/16/91 Reactor thit III thta Fooder: IItFIS NRC DIDS Paranater PAIN EL 1/A Point ID: RM064 Plant-Spoc Point Ibsc PAIN STM LINE 101 A OR D Generic /Cond Desc: SIM GDi A OR B S'1 TAM LINE TAD LLVEL Analog / Digital A Engr thits/ Dig States: CPM Engr thits Conversions !ONE Minimum Instr Range 10 Maximum Instr Rango 1 E6 Zero Referenco Points N/A Reference Point N#ws: N/A PROC or SENS: S Number of Sansors: 1 How Processed: N/A Sensor locations: DOWNS 7RFM MAIN S'IN ISOLATION VALVES Alarm / Trip Setpoints: lOJE NI Detector Power Supply N/A Cut-On Pcuer Ifnel NI Ibtector Po wr Supply N/A' Turn-On Ihor Invelt Instrument Failure Mader LOW TLYnperaturo Ccxnpcmsation N For DP Transmitters level Reference Irg: N/A thique Systsun Desc.: SENSITIVITY FACIOR: 1.34 E+2 BTCKGROUND CPM: 12. OPERATIONAL DURIIG S7M l_ GEN 7UBE RUFIURE I! CIDE!E (MANUALLY INITIATED). MONISORS THE SEIJUI'ED STFM GDJERA1Gl.

DNI'A POIITP LIIVIARY REFERDCE FIII Page 31 of 39 tute: 10/16/91 Roactor Unit FC1 thta Fooder: ERfCS 11RC ERDS Paraneter SG BD RAD 1/A Point ID: RM054A Plant-Spec Point Desc SIM GD4 M131 MON Generic /Cond Desce SIM GD1 A BIOWDOWN RAD 11 VEL  !

Analog / Digital A Digr Units / Dig States: CPM Engr Units Cctworsions NONE Minimn Instr Ibnge: 10 Maxima Instr Range: 1 E6 Zero IMferunce Pulnt: N/A Reference Point !btes: N/A PROC or SDE: S Number of Sensors: 1 1104 Processed: N/A j Sensor Locations: UPSIREAM OF SG SAMPIE HEADERS Alarm / Trip Setpoints: ALERT: 1000 HI: 1270 NI Detector Power Supply N/A Cut-On Ibwer Invels l

NI Detector Power Supply N/A Turn-On Pcuer Invels l-Instrunent- Failure Mcxie MONI'IUt ItOP i 'Ibmperature Cmpensation' N l For DP Transmitters:

Invel Reference log N/A Unique Systan Desc.: SDEITIVPIY F1CIOR: 9.66 E+7 BACIGROUND CPM: 158. BASED ON ONE CIRCUIRIOR AND 40,000 Ia/HR mDWDOWN. HI AINei INITIATES CUDSURE OF SG BIDWDOWN i INSIDE CONTAIIMITI' ISOfATI(14 VALVES.

o

DATA ICINP LIIM1ARY REFIRDCE FILE Page 32 of 39 Ibte 10/16/91 Reactor thit: 1C1 Data Fooder: DutS NRC ERDS Paraneter SG BD RAD 2D Point ID RM054B i Plant-Spec Point Desc: SIM GDi BIni 101 Generic /Cond Desc: SIM GDi B BIO 4XMN RAD ILVEL Analog / Digital: A Engr Units / Dig States: CPM Engr Units Conversion: IOJE Minimum Instr Range: 10 Msximum Instr Range: 1 E6 Zero Reference Point N/A Reference Point Ibtes: N/A PROC or SDIS: S Number of Sensors: 1 llow Processed: N/A Sensor Iocations: UPSTREAM OF SG SAMPLE HEADERS Alann/ Trip Setpoints: ALERT: 1100 HI 1460 NI Detex: tor Powr Supply N/A Cut-On Power Imli NI Detector Power Supply N/A Turn-On Power Invel Instrument Failure Moder MONITOR IlOP l

Temperature Campensation N For DP Transmitters:

I Invel Reference Ing: N/A Unique System Desc.: SENSITIVITY FAC701: 9.94 E+7 BACPEROUND CPM: 344. IVLSED ON ONE CIRCLEATOR AND 40,000 LB/HR BIDOOWN. HI AIRM INITIATES CIDSURE OF SG HIDWIXhN INSIDE CQfrAIINDir ISOIATION VALVES.

IMTA FOI!(P LIIYW1Y REPIRDCE FIII Pago 33 of 39 Ibte: 10/16/91 Reactor thit: 1C1 Ibta Fooder DUUS NRC ERDS Para:teter: CIMiff PRfSS Point ID: 10011W Plant-Spec Itint Ibsci Ill Ctf1MT PRESSURE WIDE RA!GE Generic /Cand Desc CorTTAING2fr IHESSURE Analog / Digital A Engr thits/ Dig States: PSIG Engr thits Conversion luiE Mininum Instr Range -5 Maxinum Instr Range: 195 Zero Reference Points N/A Reference Point Ibtes: N/A PROC or SD1S P Nuninr of Sensors: 2 llow Procesexxt: IIIGfEST Sensor Locations: N/A Alann/ Trip Setpoints: IONE NI Detector Power Supply N/A Cut-On Power Invel NI Detector Ecwer Sulply N/A Turn-On lher Invel:

Instrument Failure Modos IDi 1Yr.gerature Campensation h For DP Transmitters:

Invel Re'erence Iaj: N/A linique Systan Desc.: INPUT FRO 4 P783 AND P784

f DATA POINP LIfRARY REFHlDCE FILE Pago 34 of 39 Dato: 10/16/91 Reactor Unit IT1 Data Fooder DlFCS NRC UtDS Paratioters CIMtfr TEMP lbint ID: TAVCAN Plant-Spoc Point Desc: AVE CONTAI!EDif AMBIDif TmP Generic /Cond Desca COffrAI!EDif TD4PDVuutE Analtg/ Digital: A Engr Units / Dig States DII3 F Engr Units Ccrwersions luiE Minitan Instr Ihnge 0 Maxim n Instr Rango 400 Zero Referrnce Points N/A Reference Point Ibt.es N/A PfCC or SDiS P thrter of Sensors: 4 IkM Prtxxesed: N/A Sensor Locations: N/A Alarm / Trip Setpoints lOJE NI Detector Ib.er Supply N/A Cut-On Ptver Invult NI Detector Power Supply N/A Turn-01 Power level Instnment railure Modes N/A

'Ibuperature Coqxmsation N For DP Transmitters:

Level Reference 10g: N/A Unique System Desc.: ERFCS GDIURATED AVDVGE OF (INTAIIMENP AMBIDfT TIXPERA'IURE. INPl1T FRO 4 T887, T888, T889 Ato T890.

- . - . . ._- . .. ~

IWIA IOINP LIIRAllY IGTDIDCE FII2 Page 35 of 39 Dite: 10/16/91 Roactor thit: Ir1 Data Fooders DGCS lac IItDS Paraneter: }{2 COtC Point ID: 10m12 Plant-Spec Point Desci 111 cmfr 112 COCDmtATION Generic /Cond Deact N~t4E Analog / Digital: A Engr thits/ Dig States  %

Engr thits Conversions !alB Mininsmi Instr Ibnge 0 Maxinun Instr Range: 10 at 20 Zero Refemnce Points N/A FefamJtoe Point Notes: N/A PlVX' or SD13: P 1Asmber of Sensors: 2 Ikw Processed: HIGIEST Settsor Ircations: N/A Alann/ Trip Setpainta MJDE 1 - HIf!I 1.4 III: 1.0 NI Detector Power Supply N/A

. Cut-On Power 1mels l

NI Detector Ihr Supply N/A l Turn-On Power Irwel l Instrumont Failure Mode: N/A 1

'Damperatttre Oxrpensation N For DP Trunanitterst l- Irnel Refemnce leg N/A Unique Systm Desc.: INPUT FRO 41R81A & 1R318. SPDS PNIAMEI'fR WITH MJDE DEPD1 DANT A11J!M. ERFCS DOES IUP HAVE INDICATION OF SWI'IGI POSITIOi,

. . . . . . _ . . = .- . - - _ . . - . - . . ~ . . . . . . .

DATA POINT LIIVW1Y REFERDCE FILE Pago 36 of 39 Ihte: 10/16/91 Emetor Unitt 101 1hta Ibeder IRfCS t#C ERDS Paranntar 116f LEVEL Point ID: L381 Plant-Spec Point Desc: REFUEL 11G WIR S1UVGE TK LVL l l

Generic /Cond Desc ID%TED WGUI S1UVGE TA!E IJNEL  !

Analcx]/ Digital: A i Engr Units / Dig States: IN H2O l Engr Unite Conversion: KJNE Minitun Instr Range: C l

Maxinzn Instr Range: 2iG l Zero Reference Point: '"NKE7f Referunco Point Ibtes: 0* = 0% 206" = 100%

l PROC or SalS: E Ihmter of Sensors: 1 Ikw Processed: N/A Sensor Locations: 26'W OF T, 2'N OF 3B, ELEV 1010' Alarm / Trip Setpoints: MI: 193 ID: 185 NI Detector Pcrer Supply N/A Cut On Power level NI Detector Power Supply N/A Turn-On Ibwer level l Instrument Failure Modos INDICATION Imf Temperature Ccqensation N For DP Transntitters l

Invol Reference Ing: WP Unique Systan Desc.: TANK SIZE: 314,000 GAL, MAINEAINED B21 WEEN 1800-2300 PIM DORON. EMER CORE C00LIfC PUMPS SHIFT SUCTION FRCH SIRWP TO 00tifAItNDIP SIEP ON IIM LEVEL (16"). SPDS 10DE DEPDOAlff AIARM.

-- .~ - --

DATA ICINP LIBRARY REFEDCE FILE Page 37 of 39 Date: 10/16/91 kaactor Unit - Ir1 Data Fwder: 1RICS rR RDS Paratteter: W110 SPFID Point ID: WS10M1 Plant-Spec Point Desci 19 MLTER WI!O SPEED PRIFR Y Generic /Corxi Eese WDO SPEED AT ' HIE RENfIOR SITE Analog / Digital: A Engr Units / Dig States: MPH Engr Units Conversion lOE Minhum Iratr lenge: 0 Maxitam, instr Range: 80

" ro Reference Point:

w N/A Reference Point Notes: N/A PROC or SENS: S Nu:tber of Sensors: '

Ikw Processed: h/A Sensor locations: MET 'IDER Alann/ Trip Setpoints: 10NE NI Detector Power Supply N/A Cut-On Puwer Level NI Dotector Power Supply N/A Turn-On Power Level:

Instrument Failure Frde: ILW

'Ibiperature Compensation N Ebr DP Transmitters:

Invel Reterence Ing: N/A Unique System Desc.: InE

l DATA POINT LIERARY REFERFlCE FILE Page 38 of 39 Date: 10/16/91 Reector Unit FC1 Data Feeder EREES NRC FRDS Parameter WIND DIR leint ID: WD10M1 Plant-Spec Point Desc 10 )TTER WIND DIR PRIMARY Generic /Cond Desc: WIND DIRECTIO4 AT 71E RFJCIOR SITE Analog / Digital: A Engr Units / Dig States DEU Engr Units Conversion: IONE Minimum Instr Pange 0 Maxinun Instr Range: 540 Zero Reference Points N/A Reference Point Notes

• N/A PROC or SENS: S Number of Seasors: 1 lbe Processed: N/A Sensor locations: MET 'IWER Alarm / Trip Setpoints: NOME NI Detector Power Supply N/A Cut-On Iher ILwel:

NI Detector Eower Supply N/A Turn-On Power ILwel:

Instrument Failure Mode: LCM 7tmpersture Campensation N For DP Transmitters:

Invel Reference leg: N/A Unique Systern Desc.: 10NE

DATA POINT LIIViARY REFERDCE FILE- Page 39 of 39 Date: 10/16/91 Rmetor Unit EC1 Data FJeder: ERECS NRC ERDS Paraneters STAB CLASS Point ID: Dr1101 Plant-Spec Point Desc 110-1 DELTA TEt@

l Generic /Cond Desca AIR STABILITY AT 'IEE REAC70R DITE

. Analog / Digital: A l Engr Units / Dig States: DEG C Engr Units Conversion: NONE Mininun Instr Range -5 i Maxinun Instr Range: 15 Zero Reference Points N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor locations: MEf 'lVWER Alann/ Trip Setpoints: LONE NI Detector Power Supply- N/A Cut @ Power level:

NI Detector Puer Supply N/A Turn-On Power !evel:

Instrunent Failure Hvjer High

'IWuperature Caupensati)n N For DP Transmitters:

Ievel Reference Iag: N/A Unique Systen Desc.:

ENCLOSURE 3 DATA POINT LIBRARY REFERENCE FILE DEFINITIONS DATE:

The (Eightdate that this form is filled out or modified.

characters)

REACTOR UNIT:

The nucitar power plant name and abbreviation from the enclosed list of sites. (Three characters)

DATA FEEDER:

If there is more than one data feeder for your system, enter the acronym for the data feeder from which the point comes. If there is only one data feeder, enter "N/A" in this field. (Ten characters)

NRC ERDS PARAMETER:

One of the parameters from the enclosed BWR or PWR parameter list. A single value should be transmitted for each parameter for each loop. If not on the list, insert "Not Listed" or "NL". (Twelve characters)

POINT ID:

Alphanumeric point description used to label the point during transmission.

(Twelve characters)

PLANT SPECIFIC Licensen computer point description for the transmitted POINT DESCRIPTION: point. (Forty characters)

GENERIC OR CONDENSED DESCRIPTION:

Parameter description from the enclosed list of points for a BWR or PWR. If not on the list, cordense the plant-specific point description. (Thirty-two charac-ters)

ANALOG / DIGITAL: "A" if the signal is analog or numerical or "D" signal is off/on. (C'ne character) if the ENGINEERING UNITS Engineering units used by the licensee for display on OR DIGITAL STATES: licensee output devices. Use the engineering units abbreviations from the enclosed list when possible.

When specifying pressure, use " PSIA" or "PSIG" rather than " PSI". For digital signals, give the "0FF" and "0N" state descriptors. (Twelve characters)

ENGINEERING UNITS Notes about any special features of the A/D conversion CONVERSION: and scaling. (Forty characters)

MINIMUM INSTRUMENT RANGE:

Engineering units value below which data cannot go (bottom of-scale value). (Ten characters)

MAXIMUM INSTRUMENT RANGE:

Engineering units value above which data cannot go (top-of-scale value). (Ten characters) lev. 0.A NRC-314 1 h-19 d

l .

l ENCLOSURE 3 I

ZERO REFERENCE POINT:

Zero point of engineering units scale, used primarily for levels or heights. Use the zero reference point abbreviations from the enclosed list when possible.

(Six characters)

REFERENCE POINT NOTES:

Notes about the reference point or other important and special features of the parameter. (Forty characters)

PROC OR SENS-Is the point formed by processing more than one signal, or is the source a single sensor ("P" or "S")? (One character)

NUMBER OF SENSORS:

The number of signals processed in a full calctlation assuming no bypassed or inoperative sensors. (Turee characters)

HOW PROCESSED: The processing algorithm (sum, average, weighted average, highest, lowest- or a short cescription).

(Forty characters)

SENSOR LOCATIONS:

Description used. (Forty characters) of the location (s) of the i ns trus.,ent ( s)

ALARM OR TRIP The most important setpoints for the parameter. State SETPOINTS: whether the limit is high or low. (Forty characters)

N1 DETECTOR POWER The power level at which the power supply for the NI i SUPPLY CUT-0FF POWER detector switches off. (Fifteen characters)

LEVEL:

NI DETECTOR POWER The power level at which the power supply for the NI SUPPLY TURN-ON POWER detector switches on. (Fifteen characters)

LEVEL:

INSTRUMENT FAILURE MODE: The mode in which this instrument fails. Possible answers are HIGH, MEDIUM, or LOW. If available, nrovide the numeric value at which the instrument fails. (Thirty characters)

TEMPERATURE This question pertains to differential pressure COMPENSATION FOR transmitters.

DP TRANSMITTERS: or 'N"), if thePossible answeranswers is "N0", are "YES" or "N0" ("Y" please attach a copy of the correction curve. (One character)

LEVEL REFERENCE LEG:

The type of level measurement (dry or wet) used on the level reference leg. (Three characters)

UNIQUE SYSTEM DESCRIPTION:

Additional important information which will assist the NRC Operations Center personnel in understandirig how the plant team interprets the data. (600 characters)

Rev. 0.A NRC-314 N-19 2 e -

ENCLOSURE 48 CRITICAL SAFETY FUNCTION PARAMETERS FOR BOILING WATLA REACTORS REACTIVITY CONTROL PARAMETER DESCRIPTION TYPICAL UNITS NI POWER RNG Nuclear Instruments, Power Range NI INTER RNG P.

NI SOURC RNG Nuclear Instruments, Intermediate Range AMP Nuclear Instruments, Source Range C/SEC CORE C00llNG REAC VES LEV Reactor Vessel Water Level IN MAIN FD FLOW Feedwater Flow into the Reactor System 7.

RCIC FLOW Reactor Core Isolation Cooling Flow GPM RCS INTEGRITY RCS PRESSURE Reactor Coolant System Pressure HPCI FLOW PSIG High Pressure Coolant Injection Flow GPM LPCI FLOW Low Pressure Coolant injection Flow CR SPRAY FL GPM Core Spray Cooling System Flow GPM DW F0 SMP LV Drywell Floor Drain Sump Level IN RADI0 ACTIVITY CONTROL EFF GAS RAD Radioactivity of Released Gasses EFF LIQ RAD MCI /HR Radioactivity of Released Liquids MCI /HR CND A/E RAD DW RAD Condenser Air Ejector Radioactivity C/ MIN Radiation Level in the Drywell MN STEAM RAD R/HR Radiation level of the Main Steam Line MR/HR CONTAINMENT CONDITIONS DW PRESS Orywell Pressure DW TEMP Drywell Temperature PSIG SP TEMP F Suppression Pool Temperature F SP LEVEL Suppression Pool Water Level H2 CONC IN 02 CONC Orywell or Torus Hydrogen Concentration  ?.

Drywell or Torus Oxygen Concentration 7.

MISCELLANEOUS PARAMETERS CST LEVEL Condensate Storage Tank Level WIND SPEED 7.

WIND DIR Wind Saeed at the Reactor Site MPH STAB CLASS Wind Direction at the Reactor Site DEG Air Stability at the Reactor Site Rev. 0 A NRC-314 N-19 1

. . . . _ . . . . _ _ - _ _ _ _ _ - _ - _ - - _ - - - - - - - - - - - - - - - - - - - - - - - ~ ~

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

4 EllCLOSURE 4P CRITICAL SAFETY _ FUNCTION PARAMETERS FOR PRESSURIZE 0 WATER REACTORS REACTIVITY CONTROL PARAMETER DESCRIPTION TYPICAL UNITS NI POWER RNG Nuclear Instruments, Power Range  %

NI INTER RNG-NI SOURC RNG Nuclear Instruments, Intermediate Range AMP

. Nuclear Instruments Source Range C/SEC- ,

CORE COOLING REAC VES LEY Reactor Vessel Water Level IN TEMP-CORE EX Highest Temperature at the Core Exit SUB MARGIN F Saturation Temperature - Highest CET- F CORE FLOW Total Reactor Coolant flow MLB/HR STEAM GENERATORS SG-LEVEL-1/A Steam Generator 1 (or A)-Water. Level  %

SG LEVEL 2/B Steam Generator 2 (or B) Water Level  %

SG LEVFL 3/C Steam Generator.3 (or C) Water-Level  %

SG LEVEL 4/D Steam Generator 4 (or D) Water Level  %

SG PRESS 1/A Steam Generator 1-(or A) Pressure  %.

SG PRESS 2/B Steam Generator 2 (or B Pressure  % '

SG PRESS 3/C Steam Generator 3 (or C Pressure

• SG PRESS 4/D steam Generator 4 (or D Pressure  %

~

.- MN FD FL 1/A Stm Gen 1 (or A) Main feedwater Flow MN FD FL 2/B LBM/HR 3; Stm Gen 2 (or B) Main Feedwater Flow LBM/HR MN FD FL 3/C Stm Gen 3 (or-C) Main-Feedwater Flow MH-FD FL-4/D LBM/HR Stm Gen 4'(or.0) Main Feedwater Flow LBM/HR

-AX FD FL 1/A Stm Gen 1_(or A) Auxiliary FW Flow AX FD FL 2/B GPM Stm Gen 2-(or 8) Auxiliary FW Flow GPM AX FD FL 3/C Stm Gen 3_(or C) Auxiliary FW Flow GPM

-AX FD FL 4/D- Stm Gen 4-(or D) Auxiliary _FW Flow GPM HL TEMP-1/A StmLGen l_(or A)EInlet Temperature F

- HL TEMP 2/B Stm Gen 2 (or_B) Inlet. Temperature F HL TEMP 3/C- Stm Gen 31(or C) Inlet Temperature F HL: TEMP 4/D- Stm Gen 4-(or D) Inlet Temperature L F CL TEMP--1/A Stm Gen 1 (or A) Outlet Temperature.

- F CL TEMP 2/B

~

Stm Gen 2L(or B) Outlet Temperature _ F

'. CL TEMP 3/C Stm Gen 3 (or C) Outlet Temperature F

- -CL. TEMP 4/0; Stm Gen 4-(or D) Outlet Temperature F I

r-p Rev.-0.A NRC-314 1.-

E N-19

ENCLOSURE 4P REACTIVITY CONTROL PAR _AMdTER DESCRIPT1,0Ji TYPICAL UNITS RCS INTEGRITY RCS PRESSURE Reactor Coolant System Pressure PRZR LEVEL PSIG Primary System Pressurizer Level t, RCS CHG/MU Primary System Charging or Makeup flow HP St FLOW .High Pressure Safety injection Flow GPM LP SI FLOW GPM Low Pressure Safety injection Flow GPM CTMNT SMP NR Containment Sump Narrow Range Level IN CTMNT SMP WR Containment Sump Wide Range Level IN RADIDACTIVITY CONTROL _

LFF GAS RAD Radioactivity of Released Gasses EFF LIQ RAD Radioactivity of Released Liquids MCl/HR COND A/E RAD MCI /HR CNTMNT RAD Condenser Air Ejector Radioactivity C/ MIN RCS LTDN RAD Radiation Level in the Containment R/HR Rad Level of the RCS Letdown Line C/SEC MAIN SL 1/A MAIN SL 2/B Stm Gen 1 (or A) Steam Line Rad level MR/HR MAIN SL 3/C Stm Gen 2 (or B) Steam Line Rad Level MR/HR MAIN SL 4/D Stm Gen 3 (or C) Steam Line Rad Level MR/HR Stm Gen 4 (or D) Steam Line Rad Level MR/HR SG BD RAD 1A SG BD RAD 2B Stm Gen 1 (or A) Blowdown Rad Level MR/HR SG BD RAD 3C Stm Gen 2 (or B Blowdown Rad Level MR/HR SG BD RAD 4D Stm Gen 3 (or C Blowdown Rad Level MR/HR Stm Gen 4 (or D_ Blowdown Rad Level MR/HR CONTAINMENT CONDITIONS CTMNT PRESS Containment Pressure PSIG CTMNT TEMP Containment Temperature H2 CONC F Containment Hydrogen Concentration  %

MISCELLANEOUS PARAMETERS BWST LEVEL Borated Water Storage Tank Level WIND SPEED  !.

Wind Speed at the Reactor Site MPH WIND DlR STAB CLASS Wind Direction at the Reactor Site DEG Air Stability at the Reactor Site 1

4 Rev. 0.A NRC-314 N-19 2 1