ML20055E487
| ML20055E487 | |
| Person / Time | |
|---|---|
| Site: | Comanche Peak  |
| Issue date: | 07/03/1990 |
| From: | John Jolicoeur NRC OFFICE FOR ANALYSIS & EVALUATION OF OPERATIONAL DATA (AEOD) |
| To: | Cornell V TEXAS UTILITIES ELECTRIC CO. (TU ELECTRIC) |
| References | |
| NUDOCS 9007120031 | |
| Download: ML20055E487 (63) | |
Text
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fog UNITED STATES y g NUCLEAR REGULATORY COMMISSION-12 - WASHINGTON, D, C,20655
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/ July 3, 1990 l
Ms. Veronica Cornell
-Nuclear Licensing Engineer
~s m Utilities Electric Company
, 400 North Olive Street LB 81
, Dallas, Texas 'i5201
Dear Ms. Cornell:
I would like to take this opportunity to thank the Texas Utilities Electric
-Company for volunteering to participate in the Emergency Response Data System
-(ERDS). I am sure that the implementation of ERDS will prove to be beneficial
.both to the NRC and to TU Electric.
Enclosed you will find a survey designed to provide the hardware, communications, data point and administrative information necessary for our contractor- to design the ERDS system interface and data base for your plant.
Please note that one copy of the Data Point Library Reference File form (Enclosure.2) will be needed for each ERDS data point. This reference file will;be used to provide physical significance to the numerical data
' transmitted over ERDS for members of the NRC emergency response organization.
-Each reactor unit is treated as an individual plant by ERDS, therefore, a separate data feed .is required for each of your units.
-Please complete the enclosed.. survey and Data Point Library Reference File for each of your reactor units and return them to me with a copy to Tony LaRosa,
- the ERDS project manager at EI International, Inc., at the following addresses
- -
John R. Jolicoeur U.S.- Nuclear Regulatory Commission Mail Stop MNBB-3206 Washington, DC 20555 Tony P..LaRosa El International, Inc.
Post Office Box 50736 Idaho Falls, ID 8340)
.I am enclosing a copy of the data concet i ; the Comanche Peak Steam Electric istation which was provided to our contractor as a part of the ERDS feasiblity
~
_ study.
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This request is : overed by Office of Management and Budget Clearance Number 3150-0150 which expires March 31, 1992. The estimated average burden hours is 32 person hours per licensee response, including staff and management review and preparation of the requested response. These estimated average burden
. hours pertain only to those identified response-related matters and do not include the time for any follow on implementation. Send coninents regarding '
_' this-burden estinate or any other aspect of this collection of information, 1
i 9i007120031 900703 pv pan-nuocxOsooms e
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including suggestions-for reducing this burden, to the Records and Reports
-Management Branch, Division of Information Support Services, Office of.
Information Resources Management, U.S. Nuclear Regulatory Connission,
- Washington,DC20555;andtothePaperworkReductionProject(3150-0150),
Office of Management and Budget, Washington, DC 20503.
I-am looking forward tu working with you to ensure a smooth implementation of
~ ERDS at your plant. If you have any questions, ) lease contact Tony LaRosa at (208)524-9227 or me at (301) 492-4155. Again tiank you for your continued support of the ERDS program.
Sincerely, d
}
John R. Jolicoeur Incident Response Branch Division of Operational Assessment ,
Office for Analysis and Evaluation ;
of Operational Data !
Enclosures:
, j
- 1. ERDS Connunications Descriptions and Survey Questionnaire !
- 2. Data Point Library Reference. File
- 3. . Data Point Library Reference File Definitions j 4B. Critical Safety Function Parameters for BWRs i 4P. Critical Safety function Parameters for PWRs. I
.I
- 5. Engineering Units Coding Scheme
.6.- Zero Reference Coding Scheme
- 7. Coding Scheme for. Unit Name and Unit ID ,
- 8. Computer Point Selection j
- 9. Data from ERDS Feasibility Study .)
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[NCLOSURE 1 l
ERDS COMMUNICATIONS DESCRIPTION AND SURVEY-OVESTIONNAIRE
.The; following is: a questionnaire pertaining to the Nuclear Regulatory, Commission's (NRC) Emergency Response Data System (ERDS). It consists of a series of questions concerning plant 1/0 points, software protocols, data formats, transmission frequencies, and other plant computer specific information to be used in the ERDS computer database files. Also, included here are descriptions and examples of data streams that the NRC is expecting to see
-transmitted over the communication line.
The 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 basis 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.
Rev. 0 A NRC-314 1 1 N-19 r
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ENCLOSURE =1 l
f 'l- 'I. CONTACTS
-l1 y Note: ^ Please ' provide name, title, mailing address, and phone number.
A. Survey Coordinator.(i.e., contact for later clarificationLof questionnaire
-answers):
1 B. Computer Hardware -Specialist (s):
lC. Systems Software Specialist (s):
D. Application-level' Software Specialist (s):
E. Telephone Systems Specialist (s):
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- 11. EROS COMMUNICATIONS DESCRIPTION-A. Hardware
- Y The following hardware will be supplied
for a single-feeder site:
Cddex 2234 modem -
V.22 2400 bps, asynchronous, auto dialing, auto-
.n answer, error-correcting, using the AT command set no - 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 man'uals) with speed conversion and flow control enabled.
1 Speed 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 j remote modem. This_ feature'is important because the modems have the ability _to j adjust their transmission' rate' downward if the remote' modem is operating at a l
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-lower speedL However, in order to use speed conversion, the site computer must l support'some. form of flow control. . ' Three types of flow control are supported.
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All of the above features are
, discussed in the modem manuals.
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E;4 ' ei ENCLOSURE 1 E '
B. Software
- i. Data Transmission 4
All ' transmissions, . from both the site and_ the ERDS, will be terminat ed with a
~
- carriage return (<CR>).-
- a. Site will initiate a link request in ASCII using:
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 nctify the NRC before disconnecting.the line,
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.b. ERDS will-respond'in ASCll with:
the three-character site-designator, the word-ACCEPTED or DENIED,.and
- a <CR),
, If the ERDS responds with the denied message, the site should wait one minute and then send a link request message and, continue. sending them i .
at one-minute intervals. If more than five minutes elapses without a1 response, site personnel should notify the NRC before disconnecting tho=
- line.
. $ ',1 I 1 Rev, 0.A NRC-314 4 N ~19 l
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ENCLOSURE l-
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When the_ ERDS is. ready to receive data, it will send an initiate message; in.ASCll using:
s
= the three-character site designator, i -
' the word INITIATE, and a <CR>.
v
, if the' ERDS 'does not send an initiate message within one minute of' the accept message, the site should send the link request message (described
-in Section ll.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/HH: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 ASCll
' message will be sent containing:
]
the-three character site designator,
=f - -the word TERMINATE, and a <CR>.
. f. If a site is. inadvertently terminated (due to loss of communications y, or receipt of terminate me's sage) and the-incident is still underway,
.the site should reconnect with the ERDS by redialing and using the Ii reconnect link request message. This message is in ASCII and will LRev. 0.A NRC 314 5 N 19
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7, ENCLOSURE l-t g, .contain:
the three character site designator,
' the word RECONNECT, y -;
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 described in. Sections ll.B.i.b and !!.B'i'.c;- .
If the;ERDS responds with a link deny message (described in Section II.B.i.b), the site should- stop trying to reconnect and send a link request message (described in Sect. ion ll.B.i..a). If the ERDS does not respond 'to the site's reconnect request within one minute, the site should send another reconnect request and continue sending reconnect requests once a minute. If more- than five- minutes elapses without a'-
response,- site personnel should notify the NRC before disconnecting-the line. It is the responsibility of the site to monitor the outgoing line-foriloss of communications.
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- 11. Data Format The following three' delimiters have been identified:
(1) field delimiter (*),
, -(2)' data set. delimiter (\), and (3) carriage return (<CR>).
Note:. '_The length of the niessages 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.
1
- a. Link requests will be in Ascll as described in ll.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 II.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'll'B.i.c with each field separated by a field delimiter:
and the response - terminated with a. data - set delimiter. For example, pal *lNITIATE\<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: 821CP004*-0.l'234E+00*3*.....(for each parameter)\
1 Trailer: 0000056000\<CR>
Rev. 0.A NRC-314 7 N-19 1
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t ENCLOSURE 1
.E
- e. The point identifier may be up to 12 characters in length,
- f. The value may be up to 20 characters in length.
- g. The following quality tags will be accepted by the ERDS:
E 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 made 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 8 N-19
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ENCLOS'URE 1.
k- 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 portion containing the parameter,:
c value.andqualityindications). This integer checksum value will then be: encoded into the update set as a 10 digit. value, .lef t-padded with-zeros as required,to fill the 10-digit field. The ' checksum is the sum-
- of the transmitted bytes. ,
- i. The reconnect lir.k request message will be in ASCll as describedIin-
-Section II.B i.f with each field separated by a field delimiter and the:
request terminated with a data set delimiter. For ' example, pal
- RECONNECT *01/12/89/ll:48:50\<CR).
1 Rev. 0.A NRC-314 9-1 N- 19 -- 1 1
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17/ ' ENCLOSURE 1.
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, , 111. Protocol a.
os ERDS will ise XON/X0FF to stop, resume, or suspend data 1 transmission for the sito,
- b. Communication parameters: ,
(
eight' data bits
'/
- 1 stop bit
- parity = none-c:
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ENCLOSURE 1~
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- iv. Exceptions-
, .Please note,any exceptions which must be taken to Section.ll and explain why.
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ENCLOSURE 1 111. SELECTION OF-DATA FEEDERS
'A. -
How'many data feeders are there .'(six maximum)7 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 rationale for selecting it if another system can also provide its categories of data points.
1 C.
Which data feeder is the site time determining feeder? This should be the 1 j
feeder which is providing the majority of the-data points.
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ENCLOSURE 1 >;
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DATA' FEEDER INFORMATION' !
. Note:
'A new Section IV'must be filled out-for each feeder system selected, b A. !
General-Questions d
i.. Identification of Da'ta feeder
- a. '
What is the name in local parlance given toL this data feeder (e.g.,
Emergency Response Information System)? Please give both the' acronym and the words forming it,
- b. Is this the site time determining feeder?
- c. 1
, What is the update fr:4uency of this feeder (in ' seconds)?
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a
= ii . Hardware / Software Environment n
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- a. ' Identify the manufacturer and model number of the data feeder hardware.
- b. Identify'the operating system.
o.
- c. What= method of timekeeping- is implemented - on _ this feeder system
_(Day 1_ight Savings, Standard, Greenwich)?
- d. ~1n what time zone is this feeder' located?
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ENCLOSURE'1- t l
111. Data' Communication Details 1 In a.
Can this data feeder provide asynchronous serial data communication (RS-
- , 232-C) with full-modem control?
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- b. Will this feeder transmit in ASCII or EBCDIC?
)
c c. Can this feeder transmit at a serial baud rate of 2400 bps? If.not, i o
at what baud rate can it transmit?
en
. 1 d.c .Does the operating system support-XON/X0FF flow control? ,
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- 1. Are any problems foreseen with the NRC using XON/X0FF to control the>
transmission of data?- ;
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- e. ;If it:is not feasible to reconfigure ~ a serial port; for the ERDS linkup _
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(i.e., change the baud rate, parity, etc.), please explain why. :
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- f. -u o n, Can the serial port dedicated to the EROS be configured so that the NRC'. ;
need not emulate 'a specific brand of terminal (i.e., can it be' d p_ _ , ' > configured to be a " vanilla" terminal)? l L
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.g. _Do any ports currently exist for}the ERDS li_nkup?
- 1. If not -is'it possible to add additional ports? s
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L 2.-if yes, will the port be used-solely by the ERDS or shared with'other nonemergency-time' users? Give details.
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Data Feeder Physical. Environment and Management 1 . .
a.
Where:is the data feeder located in terms of the TSC,' EOF, and control"
-. . room?
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b .' - 'l' Is the data feeder protected from loss of supply of electricity?-
c.-,Is there a. human operator for this data feeder?
- 1. If-Lo, how many hours a day is the feeder attended? -i~
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ENCLOSURE 2-DATA POINT L IBRARY-
-The Data Point Library is a site specific ' database residing on the ERDS computer which expands upon the basic information in a typical data point dictionary. :
The data being displayed at the NRC's Operations Center for the ERDS parameter will be the same as the plant's Emergency Response Team's data. That is, it will i
have the same value, timestamp, and be in the same engineering units. This
' requires. that the- Operations Center personnel adjust their thinking to accommodate 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 H 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 j manner in which the plant's team utilizes and reacts to the data.
The types of information contained in the Data Point Library are the data point identifier, description, engineering units, range, alarms and/or 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. i
^
Because' the points selected for transmission to the ERDS are indicative of plant
" health" Land are associated with Critical Safety functions, they are 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 textual 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, associat'ed with a transmitted 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, 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 1 0 N 19
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, . . , u Lw ENCLOSURE 2 L The' Data Po.ini 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 "i 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 exampl'es 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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BWR DATA POINT LIBRARY REFERENCE FILE o
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OATE: 06/05/89
- REACTOR UNIT
- XYZ DATA FEEDER:- N/A
-NRC EROS PARAMETER: CST LEVEL POINT.10: C345204 e
PLANT SPEC POINT DESC..: CS TNK 1A LVL GENERIC /COND DESC.: Condensate Storace Tank A Level:
ANALOG / DIGITAL: A- i ENGR UNITS /OlG STt.TES: '%
ENGR UNITS CONVERSION: I Each 1% - 1692 Gallons i MINIMUM INSTR RANGE: !
Q__ !
MAXIMUM' INSTR RANGE:. 100 ZERO POINT
REFERENCE:
~;fALEV REFERENCE POINT NOTES: At 0% 245.000 Gals Remain In Tank i
. PROC OR SENS: P' I
NUMBER 0F SENSORS: 2 HOW PROCESSED: Averaae i
SENSOR LOCATIONS: 245.000 Gal Above Tank Bottom
?
ALARM / TRIP SET P0lNTS: Low level At 12%
lo NI DETECTOR POWER I
- SUPPLY CUT-0FF POWER .
LEVEL: -N/A ]
-Hi DETECTOR POWER SUPPLY' TURN-0N POWER !
1 LEVEL: N/A'
- lNSTRUMENT FAILURE '
MODE: Low i lRev. 0.A NRC-314 3 1N 1 i
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I TEMPERATURE COMPENSATION 1
FOR OP TRANSMITTTRS:' ' tilA -
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LEVEL REFERENCE LEG: N/A' '
UNIQUE SYSTEM DESC.: This averaaed senser readina is for the normally used !
1 vol'ume of the tank. The remainina 245.000 aallons are monitored by two discrete I
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alarms at 150.000 and 50.000 callonL1111.1 remain'ino tank content.t. Tgni tank volume is 414.200 callo w _ l V '
o NOTE: A second identical tanknnrma?1Ldedicatedio XYZ Unit 1 is available for cross-connectina'to this tank at the bottpn (ECCS) suction line. !
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gi j; - ENCLOSURE 2 PWR DATA POINT LIBRARY REFERENCE FILE DATE: 06/05/89 REACTOR UNIT: RC OATA FEEDER: ERIS NRC EROS PARAMETER: AX FD FL 1/A 1
POINT 10: AF10SA PLANT SPEC POINT DESC.: AFW Flow SG 11 MTR ,,,,_
[ GENERIC /COND DESC.: AFW Flow SG 11 Frm Elec AFW Pumo ANALOG /0!GITAL: A ENGR UNITS / DIG STATES: GPM ENGR UNITS CONVERSION: N/A MINIMUM INSTR RANGE: 0 MAXIMUM INSTR RANGE: 500 ZERO POINT
REFERENCE:
N/A REFERENCE POINT NOTES: N/A b PROC OR SENS: S NUMBER OF SENSORS: L ,
NOW PROCESSED: N/A SENSOR LOCATIONS: On line To SG 11 Outside Containment ALARM / TRIP SET POINTS: Hioh Flow At 500 GPM NI DETECTOR POWER SUPPLY CUT-0FF POWER LEVEL: N/A NI DETECTOR POWER
- SUPPLY TURii 0N POWER LEVEL: N/A INSTRUMENT FAILURE MODE: tow
.Rev. 0.A NRC 314 5 N 19
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ENCLOSURE 2 I'jp TEMPER TURE COMPENSATION 'I i
TOR OP' TRANSMITTERS:- N/A !
" LEVEL REFERENCE LEG: N/A-i g UNIQUE. SYSTEM DESC.:
4 There are one electric and two turbine-driven ArW oumns. !
Thg_glectrie oumo has dedicated discharae lines to each SG. The flow element
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for this ooint reoresents the last sensor orier to the line enterino containment- .
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' The' two turbine-driven numns use separate oinina to the SGs. Maximum rated flow i if 1
b' for t hi s Dumo - i s 450 GPM. Shutoff head is 1200 PSIG. !
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ENCLOSURE 2.
PWR DATA POINT LIBRARY REFERENCE FILE
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- '? . DATE: / /
REACTOR UNIT:
} DATA FEEDER:
1 NRC ERDS PARAMETER:
POINT 10: .
PLANT SPEC PolNT DESC.: I t
GENERIC /CONO DESC.: -
q ANALOG / DIGITAL:
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ENGR UNITS / DIG STATES:- !
ENGR UNITS CONVERSION: i MINIMUM INSTR RANGE: I
. i MAXIMUM INSTR RANGE: '
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ZERO POINT
REFERENCE:
t
. REFERENCE POINT NOTES:- '
PROC OR SEN$: '
NUMBER 0F SENSORS:
HOW PROCESSED:
- i SENSOR LOCATIONS
- 5
!I ALARM / TRIP SET POINTS: 4 NI-DETECTOR POWER SUPPLY CUT OFF POWER LEVEL: -i
-N! DETECTOR POWER i
- SUPPLY TURN ON POWER m' LEVEL:
INSTRUMENT FAILURE
. MODE: !
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Rev.'O.A' NRC 314 7 N 19- ,
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F-b' ENCLOSURE 3 E DATA POINT LIBRARY REFERENCE FILE DEFINITIONS i r
DATE:
The date that this form is filled out or modified.
(Eightcharacters)
REACTOR UNIT: The nuclear power plant name and abbreviation from the enclosed list of sites. (Three characters) :
I DATA FEEDER: If there is more than one data feeder for your system, 1 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, t insert "Not Listed" or "NL". (Twelvecharacters) f POINT 10: Alphanumeric point description used to label the point during transmission. (Twelve characters) ;
PLANT SPECIFIC Licensee computer point description for the transmitted POINT DESCRIPTION: point. (Forty characters)
GENERIC OR CONDENSED Parameter description from the enclosed list of points DESCRIPTION: for a BWR or PWR, If not on the list, condense the '
plant specific point description. (Thirty two charac-ters)
ANALOG /OlGITAL: "A" if the signal is analog or numerical or "D" if the signal is off/on. (One character)
ENGINEERING UNITS Engineering units used by the licensee for display on OR O!GITAL STATES: licent.ee 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. (Twelvecharacters)
ENGINEERING VNITS Notes about any special features of the A/D conversion i CONVERSION: and scaling. (Forty characters)
MINIMUM INSTRUMENT Engineering units value below which data cannot go !
RANGE:
(bottom of-scale value). (Ten characters) ,
' MAXIMUM INSTRUMENT Engineering units value above which data cannot go (top-RANGE:
of scale value). (Ten characters) i
' Rev. 0.A NRC-314 1 N 19~
,-1 .
ENCLOSURE 3 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 i
' 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, i or is the source a single sensor ("P" or "S")? (One l character)
NUMBER OF SENSORS: The number of signals processed in a full calculation *
' assuming no bypassed or inoperative sensors. (Three characters)
HOW PROCESSED: The processing algorithm (sum, average, weighted average, highest, lowest, or a short description). !
(Forty characters)
SENSOR LOCATIONS:
Description of the location (s) of the instrument (s) used. (Forty characters)
ALARM OR TRIP The most important setpoints for the parameter. State SETPOINTS: whether the limit is high or low. (Forty characters) :
NI DETECTOR POWER The power level at which the power supply for it.e NI 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, provide .
the numeric value at which the instrument fails. (Thirty characters) i TEMPERATURE This question pertains to differential pressure COMPENSATION FOR transmitters. Possible answers are "YES" or "NO" ("Y" DP TRANSMITTERS: or "N"). If the answer is "N0", 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 Additional important information which will assist the DESCRIPTION: NRC Operations Center personnel in understanding how the plant team interprets the data. (600 characters)
Rev. 0.A NRC 314 2 N 19
7 i :o .
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ENCLOSURE 4B l CRITICAL SAFETY FUNCTION PARAMETERS '
FOR BOILING WATER REACTORS '
i :
REACTIVITY CONTROL PARAMETER D'.SCRIPTION i TYPICAL UNITS !
Ni POWER RNG Nuclear l'estruments, Power Range i N1 INTER RNG %
Nuclear 'nstruments, Intermediate Range AMP NI SOURC RNG Nuclear Instruments, Source Range
. C/SEC CORE COOLING t
REAC VES LEV Reactor Vessel Water Level e MAIN FD FLOW IN Feedwater Flow into the Reactor System %
RCIC FLOW Reactor Core Isolation Cooling flow I' GPM :
g 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 FD SMP LV Drywell Floor Drain Sump Level IN RADIOACTIVITY CONTROL '
EFF GAS RAD Radioactivity of Released Gasses EFF LIQ RAD MCI /HR Radioactivity of Released Liquids MCl/HR CND A/E RAD Condenser Air Ejector Radioactivity DW RAD C/ MIN Radiation Level in the Drywell R/HR
-s MN STEAM RAD Radiation Level of the Main Steam Line MR/HR CONTAINMENT CONDITIONS 1
DW PRESS Drywell Pressure PSIG DW TEMP l Drywell Temperature F SP TEMP Suppression Pool Temperature ;
F SP LEVEL Suppression Pool Water Level H2 CONC IN Drywell or Torus Hydrogen Concentration %
02 CONC Drywell or Torus Oxygen Concentration % 1 MISCELLANEOUS PARAMETERS CST LEVEL- Condensate Storage Tank Level %
WIND SPEED Wind Speed at the Reactor Site MPH WIND DlR ;
Wind Direction at the Reactor Site DEG STAB CLASS Air Stability at the Reactor Site i
Rev. 0.A NRC-314 1 N 19
~..
EllCLOSURE 4P CRITICAL SAFETY FUNCTION PARAMETERS FOR PRESSURIZED WATER REACTORS REACTIVITY CONTROL PARAMETER DESCRIPTION TYPICAL UNITS HI POWER RNG Nuclear Instruments, Power Range 1; NI INTER RNG Nuclear Instruments, Intermediate Range NI SOURC RNG AMP Huclear Instruments, Source Range C/SEC G.BLC00l1NG l
REAC VES LEY Reactor Vessel Water Level IN l
TEMP CORE EX Highest Temperature at the Core Exit F SUB MARGIN Saturation Temperature - Highest CET F CORE FLOW Total Reactor Coolant Flow MLB/HR L STEAM GENERATORS L SG LEVEL.1/A Steam Generator 1 (or A) Water level !;
l-SG LEVEL 2/B Steam Generator 2 (or B) Water Level i; SG LEVEL 3/C Steam Generator 3 (or C) Water Level '
F.
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 Y.
SG PRESS 3/C Steam Generator 3 (or C) Pressure t; l
SG PRESS 4/D SteamGenerator4(orD) Pressure Y, L ]
MN FD FL 1/A Stm Gen 1 (or A) Main Feedwater Flow MN FD FL 2/B LBM/HR Stm Gen 2 (or B) Main Feedwater Flow LBM/HR i MN FD FL 3/C Stm Gen 3 (or C) Main Feedwater flow LBM/HR MN FD FL 4/D Stm Gen 4 (or D) Main Feedwater Flow l LBM/HR AX FD FL 1/A Stm Gen 1 (or A) Auxiliary FW Flow GPM AX FD FL 2/B Stm Gen 2 (or B) Auxiliary FW Flow GPM AX FD FL 3/C Stm Gon 3 (or C) Auxiliary FW Flow GPM p AX FD FL'4/D Stm Gen 4 (or D) Auxiliary FW Flow GPM HL TEMP 1/A Stm Gen 1 (or A) Inlet Temperature F HL TEMP 2/B Stm Gen 2 (or B) Inlet Temperature F p HL TEMP 3/C Stm Gen 3 (or C) Inlet Temperature F HL TEMP 4/D Stm Gen 4 (or D) Inlet Temperature F CL TEMP UA Stm Gen 1 (or A) Outlet Temperature '
F CL TEMP 2/B Stm Gen 2 (or B) Outlet Temperature -F CL TEMP 3/C Stm Gen 3 (or C) Outlet Temperature F CL TEMP 4/D Stm Gen 4 (or D) Outlet Temperature F l
L 1
l l
Rev. O.A NRC 314 1 g N 19 l l
I l
+
ENCLOSURE 4P-REACTIVITY CONTROL PARAMETER DESCRIPTION TYPICAL VNITS RCS INTEGRITY 1
RCS PRESSURE Reactor Coolant System Pressure PSIG PRZR I.EVEL Primary System Pressurizer Level %
RCS CHG/MU Primary System Charging or Makeup Flow GPM HP S1 FLOW High Pressure Safety injection Flow GPM l LP S1 FLOW Low Pressure Safety injection Flow GPM j CTMNT SMP NR Containment Sump Narrow Range Level IN 1 CTMNT SMP WR Containment Sump Wide Range Level IN l
RADIDACTIVITY CONTROL l
-EFF GAS RAD Radioactivity of Released Gasses MCl/HR EFF LIQ RAD Radioactivity of Released Liquids MCI /HR COND A/E RAD Condenser Air Ejector Radioactivity C/ MIN CNTMNT RAD Radiation Level in the Containment 3' R/HR RCS LTDN RAD Rad Level of the RCS Letdown Line C/SEC MAIN'SL 1/A Stm Gen 1 (or A). Steam Line Rad Level MAIN SL 2/B MR/HR !
Stm Gen 2 (or B) Steam Line Rad Level MR/HR MAIN SL 3/C Stm Gen 3 (or C) Steam Line Rad Level MR/HR i MAIN SL 4/D Stm Gen 4 (or D) Steam Line Rad Level MR/HR SG BD RAD 1A Stm Gen 1 (or A) Blowdown Rad Level MR/HR SG BD RAD 2B. Stm Gen 2 (or B) Blowdown Rad Level MR/HR l SG BD RAD 3C Stm Gen 3 (or C) Blowdown Rad Level '
MR/HR.
SG BD RAD 4D Stm Gen 4 (or D) Blowdown Rad Level MR/HR CONTAINMENT CONDITIONS CTMNT PRESS Containment Pressure !
PSIG CTMNT TEMP Containment Temperature F H2 CONC Containment Hydrogen Concentration %
1 MISCELLANEOUS PARAMETERS '
BWST LEVEL Borated Water Storage Tank Level %
WIND SPEED Wind Speed at the Reactor Site MPH WIND DIR Wind Direction at the Reactor Site DEG STAB CLASS Air Stability at the Reactor Site 1
Rev. 0.A NRC-314 2 N 19 ,
l
1
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ENCLOSURE 5 L
ENGINEERING UNITS CODING SCHEME PSIG =
Pounds per square inch gauge PSIA =
Pounds per square inch aosolute
=
INHS Inches of Water Pressure
% = Percent INCHES FEET FT&lN =
Feet and inches FTDEC . r eet and decimal feet GAL =
Gallons LB = Pounds or pounds mass GPM =
Gallons per minute KGPM- -
Thousands of gallons per minute LB/HR = Pounds per hour
=
u KLB/HR Thousands of pounds per hour MLB/HR =
Millions of pounds per hour L CPM = Counts per minute 1
CPS = -Counts per second AMPS MAMPS - Milliamps uAMPS - Microamps DEGF = Degrees Fahrenheit DEGC = Degrees Centigrade MR/HR =- Millirem per hour ,
R/HR = Rem per hour Cl/CC = Curies per CC Cl/ML = Curies per ML
' aCI/CC -
Microcuries per CC uCl/ML = Microcuries per ML C1/S- = Curies per second uC1/S - Microcuries per second DEGFR =
Degrees true (for wind direction from)
DEGTO =
Degrees true-(for wind direction to)
DF/FT =
Degrees Fahrenheit per foot
=
DC/M Degrees Centigrade per meter
=
DC/HM Degrees Centigrade per 100 meters DF/HFT =
Degrees Fahrenheit per 100 feet STABA = Stability class in form of A - G 1 1
l;~
STABI =
Stability class in form of integer, where A = 1, B = 2 MPH = Miles per hour M/S = Meters per second 1.
l
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I Rev. 0 A NRC 314 1 N 19
, . U wo ENCLOSURE 6 ;
1 ZERO REFERENCE CODING SCHEME This field applies to levels and heights only. Leave it blank for temperatures, ,
pressure, and flows. Give the physical point represented by the number zero for '
the parameter from the choices below.
=
TAF - Top of active fuel i UPHEAD = Upper head LWHEAD = Lower head
-MSSKRT - Moisture separator skirt TOPHTR - Top of pressurizer heater bank s
SURGE - Surge line penetration i' SPRAY = At the spray nozzle UTUBES - Top of S/GU tubes TUBSHT -
At S/G tube sheet TNKBOT - :
Bottom of tank sump (e.g., CST)
COMPLX -
' Reference too complex for database entry i CNTFLR -
Containment floor SEALEV -
Mean sea levei
-1 i
L e
Rev. 0,A NRC 314 1 N 19
- s. ..
ENCLOSURE 7 May 30, 1989 CODING SCHEME FOR UNIT NAME AND UNIT ID ARKANSAS NUCLEAR ONE-1..ANI GRAND GULF l............GG1 1 ARKANSAS NUCLEAR ONE 1..AN2 HATCH 1.................HTl QUAD CITIES 1.......... 0Cl 0VAD CITIES 2.......... 0C2 BEAVER VALLEY 1.........BV1 HATCH 2.................HT2 BEAVER VALLEY 2.........BV2 HOPE CREEK-1............ hcl RANCHO SECO 1...........RS)
BELLEFONTE-1............ bel RIVER BEND IN0!AN P0lNT-2..........!P2 ROBINSON 2..............R02 l............RBI BELLEFONTE 2............BE2 INDIAN P0lNT 3..........IP3 BIG ROCK POINT..........RPl JAMES A FITZPATRICK.....FZ1 SALEM 1................. sal SALEM BRAIDWOOD 1.............BR1 KEWAUNEE................KW1 2.................SA2 SAN ONOFRE 1........... 501 BRAIDWOOD 2.............BR2 LA CROSSE (GEN 0A 2).....LCl SAN BROWNS FERRY 1..........BF1 LASALLE COUNTY 1........LSI SAN ONOFRE 2........... 502 ON0FRE 3........... 503 BROWHS FERRY 2..........BF2 LASALLE COUNTY-2........LS2 SEABR00K BROWNS FERRY 3..........BF3 LIMERICK 1..............LM1 1..............SBl SE000YAH 1..............SE1 BRUNSWICK 1.............BK1 LIMERICK 2..............LM2 SEQUOYAH BRUNSWICK 2.............BK2 MA.NE YANKEE............MY1 2..............SE2 BYRON 1.................BY1 SHEARON HARRIS 1........HR1 BYRON 2.................BY2 MCC VIRE 1. . . . . . . . . . . . . . .MC l SHOREHAM................SH1 CALLOWAY 1..............CW1 MCG0lRE-2...............MC2 SOUTH TEXAS PROJECT 1...STI MILL 3 TONE 1.............MSI CALVERT CLIFFS 1........CCl MILLS'ONE 2.............MS2 SOUTH TEXAS PROJECT 2...ST2 ST. LUClE 1.............SLI CALVERT CLIFFS 2........CC2 MILLST0NE 3.............MS3 CATAWBA 1...............CT1 ST. LUCIE 2.............SL2 CATAWBA 2...............CT2 MONT I C E L '.0. . . . . . . . . : . . . . M01 SURRY 1................. SUI NINE MILE POINT 1.......NM1 SURRY-2.................SU2 CLINTON 1...............CLI NINE MILE P0lNT-2.......NM2 SUS 0VEHANNA 1.......... '
COMANCHE PEAK-1......... CPI 501 COMANCHE PEAK 2.........CP2 NORTH ANNA 1............NAl SUS 0VEHANNA 2...........SQ2 CONNECTICUT YANKEE......HN1 NORTH ANNA 2............NA2 THREE MILE ISLAND 1.....TMl OCONEE-1............... 0Cl C00K 1..................CK1 OCONEE 2............... 0C2 THREE MILE ISLAND 2.....TM2' TROJAN..................TR1 C00K-2..................CK2 OCONEE-3...............
C00PER................. 001 OYSTER CREEK........... 0C3 TURKEY POINT 3 ........TP3 0Y1 TURKEY P0lNT 4..........TP4 CRYSTAL RIVER-3.........CR3 PALISADES............... pal OAVIS BESSE-1...........DB1 V. C. SUMMER............VS!
PALO VERDE-1............PV1 VERMONT YANKEE..........VY1 DIABLO CANYON-1.........DCl PALO VERDE 2............PV2 DIABLO CANYON-2.........DC2 PALO VERDE-3............PV3 V0GTLE 1................V01 DRESDEN 2...............DN2 PEACH BOTTOM 2..........PE2 V0GTLE 2................V02 DRESDEN 3...............DN3 PEACH BOTTOM 3..........PE3 WATERFORD 3.............WF3 DUANE ARNOLD............DAl PERRY 1.................PY1 WATTS BAR 1.............WB1 FARLEY 1................FAI PERRY 2.................PY2 WATTS BAR 2.............WB2 FARLEY 2................FA2 P!LGRIM 1...............PG1 WNP 2...................WP2 FERMI 2.................FE2 POINT BEACH 1...........PB1 WOLF CREEK..............WC1 FORT CALHOUN 1..........FCI POINT BEACH 2...........PB2 YANKEE R0WE.............YR1 FORT ST VRAIN 1........FV1 PRAIRIE ISLAND 1........Pil Z10N 1..................ZN1 GINNA...................Gil PRAIRIE ISLAND 2........Pl2 Z10N 2..................ZN2 Rev. 0.A NRC-314 1 N 19
4 c- ;
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ENCLOSURE 5-COMPUTER POINT SELECTION
'i
. minimum set of computer points, available on tne the ERDS Parameter List. number of feecers from a site, which fully cescribe ea When multiole computer points exist to describe a certain carameter
. there is usually onecriteria:
cosiracility coint or a small suoset of points wnich meet the following i'
For flulas systems (e.g., HPCI, Building Ventilation, Main feeowater, '
etc.)
systemtheare points most representing desirable. the farthest location oownstream in the Examples: ;
=
If the ventilation system exhausts from all buildings ' the power clock converge ano ascend up a single olant vent stack, effluent process raciation monitors on the plant stack need bethen only tne cescribed under " gaseous effluent" versus describing the indivicual effluent monitors which may exist for each of the exhaust lines wnich converge.
=
If an injection or feedwater system has a set of points available ,
which include flows measured at the pump discharges, at a combined header and at the point in the system just prior to injection into the loops or steam generators then the points which should be selected as potential ERDS feeds are the furthest-downstream points (flow measured just prior to injection into loops or steam generators). 1 Computer points which have uncergone the maximum amount of range ano other data point validation schemes snould be selecteo. ae are aware .
t that many utilities are in the process of upgracing computer system valication future cate.technioues and that what exists now may oe replaceo at some Comouter points representing the widest expecteo range of the parameter
~snould be selected. For example:
If there is a choice of comouter
+5 PSIG and another representing the range -5 to +10 wice-range -5 to +100 PSIG computer point should be selected; even thou itstoaccuracy
-1 +1 PSIG.may not be as great near the normally expected pressure of f
e hg o 4 The point composeo of the maximum number of inputs should .
be useo The i may oe composed by a separate microprocesso L
Monitors (SMM) ano meteorological tower systems. case selecting the most composee points should not be aThe philosoony of parameters associated with PWR coolant loops (e.g.pplied in tneS/G
, T* hot. T-cold, case of '
n Pressure,15/G Level, Main Feedwater Flow, ect.) to the extent of selecting points such as " Average.T hot", because loop-specific parameters are preferable for use in coolant-loop specific accidents such as Steam Generator Tube Breaks.
Loop 1", " Average T-hot Loop 2",
etc. should be. selected. Composed poin .
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l CP2, PRESSURE- 7 ;- CP01- * *-
.Y ! l E4 " CF O : , TEMP - HOT LE3 PO - CP01 Y .4 4 1' p;% qPO - l TEMP - COLD LEG P;3 CP01 Y 4 4-p :;PO ~ '
'1 e TE7 4CET. P4- CF f.; Y i 50 '
b MPO . EUBC00L:N3 MARG P5 CPO: Y. 1 -0.
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i cCPT FRIR LEVEL ~ P6 CP21 Y ; O . 1J -
A CFO - RCS CH3/MU, P7 ' CPO ' Y 1 1 1~
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}CFt- RX VSL LEVEL- .P8 CP01 Y 2- 1- i CPO- :RX COOL TLCW P9 - CP00 - .N 0 C. '!
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.N!'- SR >PIC. CP01' !Y- ; !.1 i
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, -CP0 ; . NI . P11 CP01 Y ; 0. 1 h i :CPO! ' NI ' - -F R P10 CPO Y i 4> 1
- CP01 . S/G FREEELRE P'O CF01 p$ ' > CFO "
Y 4 11 'l S/S LEVEL P!4 CFO Y 4 4 1 1 P' LCP t Mall 4 PEED FL*W F15' CP01 Y 4 -4 1, !
(: ;: CP .: AUX FEED TLCW P16 . CP01- Y 4 'B' 1-
". CF2 HP^5: FLCW P17 CP20 N b'1 0 0' O. l CP3- .!NT St TLOW P!B CF21 Y - 2- 2' 1- 1 s CP2: ELP INJ TLOW. 'P19. CP21 Y ' l' O 11 j OP3 l BWST LEVEL POO CP .. Y- 1 4 1- :
. ' .CP2 :
CONT FRESS' PO! CP01 Y 4
<" '1 0 11 !
.CP2 CONT TEMP: P00 - CP01- Y 1- 5 =-
1
+ :CPO , H2 CONC P23 CP01 Y : 0 , 1- -
.; . .. OP0 ': ' CONT SUMP NORM PO4 ' CP01' N' 4 0 0 L Y CP2: CONT SUMP WIDE P05- CP21 Y ~i 0. 1, lCPO' 'RX: COOL RAD- .P26 CP21- Y 1 >1 11 P2J ECONT;EAD. -; '
OPO' A/E. RAD-
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' CPO Y- O-J i:
4 CPT CPO! Y : .i 11 ^ i; ETF 3ASECUS RA0 >
POS- CPI; Y ' ' '
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?CPO' EFF LIQUID RAD P30 CF001
"- X 0 1
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I CPO : cMAIN STM LN RAD P31 CP01 ' Y. '4 4 1
iC?2 :5/G BLC00WN RAD.. 700 CP :1 Y. ; ';.
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4;P2 q. STABILITY CLAS5 POS- CP01 W 4 4 5,At c4 alt l4 LY : .l -1 j
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'1 ' i COMANCHE PEAK.2 PARAMETER 4 UNI *S RET PT SPECIAL NOTES PRESSURE 1 PSIG TEMP . HOT LEG 1 DEGF t 2 DEGF '
3 DEGF 4 DEGF !
TEMP . COLD LEG 1 DEGF '
2 DEGF ,
3 DEGF 4 DEGF TEMP . CET' 1 DEGF' SURC00 LING MARG 1 DEGF !'
PR2R LEVEL 1%
RCS CHG/MU 1 GPM RX VSL LEVEL 1% COMPLX 0 % *TAF+11" RED CH AVAIL:
2% COMPLX 94=.25" ABOVE FLANGE NI . SR 1 CPS ,
NI . IR 1 AMPS NI . PR- 1 '%
S/G PRESSURE 1 PS!G 2 PSIG 3 PSIG 4 PSIG
.~ S/G LEVEL 1. % TUBSHT i 2% TUBSH T 3%
TUBSHT '
4%. TUBSHT '
MAIN FEED FLOW l MLB/HR
- 2 MLB/HR 3 MLB/HR 4 MLB/HR AUX FEED FLOW l GPM i r
2 GPM 3 GPM 4 GPM '
-HP $1: FLOW 9
, z s. INT.S!' FLOW l'GPM 2 CPM LP INJ' FLOW l GPM BWST LEVEL- 1% }
THKBOT if8%=535KGAL:CAN XC TO OTHER UNIT' '
CONT PRESS 1 PSIG '
CONT TEMP. 1 DEGF .
- H2~ CONC 1% ,
CONT SUMP NORM 1 CONT SUMP WIDE 1 FTDEC
>00L RAD TNKBOT 808'=TNKBOT 817.5'm699KGAL:
R*. 1 UCI/ML CodT RAD 1 R/HR
.A/E RAD 1 UCI/CC EFF GASEOUS RAD 1 UCI/S MAIN STM LN RAD 1 UCI/CC 2 UCI/CC '
3-UCI/CC s_ . '-
4 UCI/CC P9 24-1 I v
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PARAMETER' L # UNITS RET:PT SPECIAL NOTES f y: ,,
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' S/G BLODOWN RAD 1 UCI/C0 WIND SPEED 1 MPH { '
2 MPH WIND DIRECTION 1 DEGFR Ll p
2 DEGFR STABILITY CLASS 1.DEGF ,
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ESPts totobase tale. praeted 93/18/li Deterd8e 33 tp e +8
- Det&ppistablellV e +9
- Umkeeeml CF21
- Elite 85eCY $$$PORSE FACILITT COMPVFtt Bff?SIl IB8FC81
'FC1.Feedet 14entitiet........lCF21 (F03.Feeeet Artseye...........lBRFC8 (FCf.Feeeet bene.............ei BWtttteCT 828PON$t F6CILITY COIIPWTtt ITFTER (tkFC8) ,
(FPl.?tLBCDItR toterd ID.......lCP
- Operettesel stettet (F06.Whe t 8 t e t te lope te t t eest t ) l F el ee (F91.0petettesel Dete........ 113/31/01 (PDS.Beest8tetse Casseste.... 66eehose**v
$&BDW&kt 9&$ DREN IB876LIAD 6119 T58789. 94\ BFFORTS 9000LD DE COIIPLBTED DT DBCMOR 1981.
- -~ 8ystes beteeetetootteete oevnteensett (F10. CPU naasteeteter ........lPetst (F11.tPU tooel......ltt0 (F13.eperetteg 8Petee.........lPl!908 RBT.18.3 ,
( F13. hese : Bre t en Set t oete . . . . . l bet hpp16 e
- Delos of stilitF and eseeste le 6evoleposettestettoestel 4Fal.Dt111tF dae appliestteet.lfelse (Fil.9%11 Be&stenee appalettetiTrse (F16.hoplientotteste 9eseote.e6 .
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( F11.Dece : Vesest e 644teesee . . . l Seeteme***
1100 DELL ATENUE: CallPDSLL, CA 96608-4966
- DeteCase tetbe6 eel ett abetes supperted by tbe egepetet eestresseett (F30.Settel feed Possiblet...l?two (F31.& oyer evennoblets?two (F33.vbet ase se?ne Protocoletts (F21.Choretter Ceee...........t&8C11 IF34.Destrate teste...........itl*D600 (F36.Resteve Deverate.........l 9600 4F26. Rom /ROFF 11ee cett) 6elbtif tse (F21.BRD8 ese be vesille Troeltifree
-* Port 'evealebtlitt and needed prodotte .
(Fil. teds Port see soletet....l? tee . 4F38.8898 pett to.BR98+eelF...lftee (F89. Pette tes be 646edt... . 60steowe- -
- (" EF30.teeder teoes Deteestet...lFelee 'Fal.Batevere Cost 8eetteete..I +0.00
. (F11. Dete s tateost e' seeeed . . . . . l pet &pp t l e .
7, , (F34.peede Betteete Preesetet.lFalso tF31.8tet Prodotte test Seet..) -8.00 J F 35.nese : 8et t es t e moeded . . . . . n pet hypt i c
- Opetettemel espettet (F04.Feeeet betettes.........el U
(F39.noet Up Potet et ente...es V
-(F40.Deleyjllturnontheetell +9.00
== . Riste11eeeoves (F44.lepleoentottee Coot Seet.6 41000.00
( F 43. nese s lepl eoe s t a t t ee Det ee l leonese~ e Ft1C8 PROVIDED IN FIELD 1RPL*C0878 9088 90T 15CLUDE C0ff 0F D&T& COIENORIC&T1088 BOU1PRENT AND P9058 k!WE &ND R&T DR 8L198TkT ER&SER&&TED.
(F41.Rese: Contacts tot f eeder.lSeenese- e
- 80stt? C00tDINt?ott J08tPB RARWDtu. Liit) 97t*8220 9
Thne teeeet has 1 CUST9tu retores and 1 D&T&stu reeerde.
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A t*ttste dettbase tah. praetet 03/18/41 beterels 21 (g a +t e not&ppliesbleltU e +t e paksees)
CF21 t CC3.Feeeer 16enttiner........)CF21
- +-+ medily estetatie oef teore ee. treate see setteere: "'
SCC 2.De* Preerse ten pet eetetstree
---+ preerseetse 1stevees 66d sueber foreettiner (CD).Fortret to lately least..>Danneen (CD4.Fortret 9eresse......... 89 stel.cther bespeepes 11bely...pV
- C04.16te tan Perset euetetet.ittee (C91.heseNuo Fetite problees.6 Bet &pplit it09.t+petettet ter +0.12H.. 6+0.1134 (80 t DOT & flop Pot 7538 BlWit'.fi .
(C16.eet 9ette are Fineet.....Ittee
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- Queltty 160s ..
(C10.9eellt? Tees are selblt..stree N (C11.nosetteelite Detente.....Itsksees-tC13.heetitles tot Septeettoestgot&ppine
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==** 8treetete of the outpet stroset (C16.?ttette se eeth epotett..*Felee (C17.0retos time of eeF eelbilltree-
<C34.teeeer opets volse eboot.ltelee 4 tCal.nese scene passe obooet6.tPales e 'C36. ben Paese teeel 11tely. .l*r +8
- -* Update Frequetriest (C18.Vedete Free
- tateres11y.el w'.
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'C19.eleveet Upd Free teet)...$ 900.00 (C30.f6eteet Dpd Frog testi... 0.10 tC21.k1 Update Fret footi...el U ..
EC22.Fe4 Upeete f ret teet)...el U
- C33. net Update Fret teet)...et 15 511rV7t8
==== bete point desertpters' ovellebility & lengthet
- r' etti.sene Deerrip Info sellaettfrw (Cat.&reeeelble (tes14 moitit.ittee i[P M
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- (C)0.pt Destriptnene celltet..lfree (C34.pt Descripttee beattb...130 7
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t *** Any protodonts let et BRD8*1the feeds i (DC2.BRDs+1the preteeest betetlVenneet (DD3. precedent is Opettt 66419 Dateeve i
( DD4. hese : Proceden t 's es t e t t s . s Vetsove I
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~~~ Dee+ptittles ebateetets it evtpets (DC1.Dettet ettees a CBit.....lftee (DOS.bes Cetoothedresses endet)Doksees (DDt.bes tron) spett!1t seest.60ebesee
- ** Impets toestred to get settett 4D1D.90046 3epots tot est opet)Deksees tD23.eettets portsene e/o tapt>Unteeve (911.Beeeseoceed 3epots.......)Dbteeen s gi r -
(D33.hese Preepts for lepots..luebeeve '"r (D16.?ype4& heed impet is e47..)Dehesee
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- Streetere of the cettet etteest (914.Detput ILines. Cole.DtherilU tD11.homettelpet deser8Dties..ppeteeve (D3l .eet tet Sobers /9peete . . . . . ) +9 (D19. 4 Aust it estret........I *pt ,t;w .
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- Update f requenciest ,q; 8924.evtput Update Frete.....e5 i
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< t01.?tLtCOInt r eeerd 19. . . . . . . t C P
- Telopeese intoteettee aboot the ettet "
'T04.Teleposee to f or site.... CONTIB8WT&L ftt C9 Dr 7t218 (T23.Ut:1 pete ptterstF pTeest>Pelee (t39.teet98ettles os det ektef6Felee t70%.Does eate pB3 Stotees... 8Seebeee***
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- 3. Dottsses TELECon 8L 1 Es,1986 Itss8?tsettesi
- Dis 11eg tete the ettet '
(701.!soord 4141100 to mereetttttee (tet.een Detes teoste 61416egistetapp11e Q:
' **** Settnag temete stoltoso ele corporate esteerts (709.Cetpeet bepptes possiblellTree tT13.CeBet bope toebe elleoodt>9et6pp16e st10.Cetpeet bepe seed possee9ettee (T11.Cetpeet 9 of etene nocent) I tt34. sea 0 elles bop to etene.6- 60
- Other stretestee for bypeestes leest esopoetient ,'..,
til).Neestbee bypees eeteestet3Dettees *
- = noteel esteerd dielles throegb ette P6tt (Til. Pet est preeest Dieteest.*Felee 'T18.ptt f eedbeck to Tooes?...ltree tTIO.ptt Datert to LDast sett.)Pelee ET19.heestattettLDiet Carrietenbet&pplie ef 2l.neesspBt pathe to 303/...lleonese**e
- 1. 80T&Tts 730000s 34 teC&L OrfecIss Tsuuts
- Settlet a see Itse to the ettet (fl1.este treets to i C0et....' 3 (T21.heestC0e' LDiet Cattlers.lleetese**e ;Q 4767
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PRESSURE l'PSIG TEMP.- HOT'LEC' - 1 DEGF g 2 DEGF 3'DEGF 4 ?EGF 1 . TEMP - COLD LEG 1 DECT 2 DEGF 3 DEGF-4 DEGF
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JCPlli!MP HOT LEG P 2 - 1 CPil' x TH LOOP 1 0 R 0 700 DE6T
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;e ; CPI CONI SUMP WIDE P25 1 CPil CNIMT LYL (WR)' P AV V 808 -817.5 FIDEC INK 80i 800'sTNK30T 31c HCPIRIlC00LRAD- P2f, 7.5'400K8AL: :
1CPil FAILED FL'EL MONifCR F CI V IE'0 !!+5 UC:!ML CVC8SYS t O C?!03NI4A0' P27 1 CPll- CNTMi RA0 HI RM6! F 'AC V 1 1E,6 R/HR INSTAL.2 SRCEstR/HR: C?!A/ERADi P28 1CFI1: CONDOTr4AS F CI- V !! 3 :!!-! UCl/CC 501000fMEIW:
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M 7; ITF iA3E Vi TAD P21 1 CFil OTAI, STACY RADIATION ? SU V 4,?i 4 1.2!!+13UO:/S ??TIDs.;35:
;J ;?! Alh 5!M LN RAD P314 1 C'!!
MSL ; FAC 'F CI R !E-1 - ;E +3. '.'Cl!C0 UPSTRM iATiY,DNSi?M
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P C1 R . IE t -
!!+2 .C:!CC UPSTRM
. $AFif,DMSTRP!
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, I71 WN' $17 LM ?At ? !'- 3 C?t!
MSL 3 ?AD P CX -E lE-1 !!+3 00!/00 UPSiiM-3 3ATTT,!NSTRM,
' PORY '
- ::d!h it'M 1,N RAC ??! 4 CP11 MSL 4 ?AD P C: R IE-l IE+3 UCI/CC UPSTRM :
!4TT! 3 STEM 30RV 4 ;F! #MLl02 #A: F20 1 0?il 16 3LON FAD AT:CN . C1 :
P. 1E-l !!-2 001/C0 31 Wlu !!!ED ' ~I3 i CP!t WINDSPf!D00T;07 P TA " 0 100 9H !MINAVEEY
< :?th: !;ii:- ::: ; ;;;;' WIM SPEE' :% /001 P TA Y 0- 100 1! MIN -
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- 11MIO
'F:".ilht GIIECTION ?!4- ; ;*:: ;;N: ;!EI0i!"N : TCOT : TA V ) !40 'I!?8 !! MIN AVI 27
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C?! T I'C !RECIICN FI4- ; ?!: JiNIE2ECT::N ;% 703i F TA V 0 !40 3557? l5M!N AVE E'i
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i "U378EN dettbese file. p 1sted 02/15/87 -Recordie 4- - .'Til (N e -8 e bot &pplicableltU e .9 e Daktown)
> k (CC1. Feeder Identifier........>CP1li
*-
- Modify esistant sof tware es, create new sof tware !
. <C02.hev progree cen get dete?) free >
---- Progressing longeste and number forsetttt;i:
.-- (CD). fortran as likely leag ?..)Unkne-n - LtC04. fortran Vereite..........lU -j (CDS.0ther Leaguepos likely...)U .
'CD6.lene een Forest seebers?.l?tse - (C01.heoothes Pattag problees.)pothyp11e -i ch (C09.!*Wetettee f or -01234...t-0.123d (90 8 507AT10W FDR TEJ8 EEA4pht) j (C15.eeg Datte are Flaedt.....) free- 1 6 --*- Duality tops:
(C10.99elity fees are selb1?..) free -
.'(C11.besespuelfes Dete11s.... 60ekseen -
'tC13.nemortfeg.Fet Suggestnessapot&pplac'. a
---- 8tructure'ef the evtput streost (C16.Tnnetag et each droint?..)Pelse . (C17. States Time of day telb1?) free
- f -- . tC24. feeder spots telee thes?.3Felse -
t <C25. nasa could peese 16eee?..>relse , :} (C26.Naa pause (see) likely...) 't-
-- , Update frequencies .
+ '
, ,< Cit. Update Frega internally.es 4
.,1.8tCOND 7p800G8 !$ Nirrfts ,
.<C19. slowest Upd Frog (seel...)" 900.00 (C20.f estost Upd Tree (see)...) 0.10 -i
.<C21 7% . Update free toerl...es ~
El
.U . k U, *
'p (C22.ted Update Trog (see)...es' n tv ~.
.. ~ (C23. Net Update Free (seel...es .
j 15 N1rJfE8 .. 1---- Dets point desertptors' eve 11ebility 6 lengthet p 4C21.some Descrap Inf o on11ae?)True (C28. Accessible Icould'ana ti?.)Tr'ue
<C29.Petat Identaflets online?>True - '<C33.petat 2dentifier Length..) t ,
. 4C3U.pt Desertptions salinet. .) free
-(C34.pt Description Length... 628 -
-(C31.Engraag utste entitet..'.)True- .
(C35.eegraag Units beneth.....) 8 , (C32.eelee Cente on11ae?......)True. 1C34.eelee Tange Length?......) 9 l tC31.some descr. talo elsewbr?.INot Applic (C39.Neso Bo' Access elseebere>Not&pplie .l A** N14eellaneoust, ! tC40. Memo 1aplementotton Notes >MotApplie. i e .'t {v
+>
t 1 ta
'1
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FEED W database ftier printed 02/18/81' .'Reeer48* 24 . (B e.*8 e 90tAppliceble)(U e al e UsRhown)
. CP11
- ENtastNCY RtsPON83 FACILITY COMPUTER STEMR (ERFC81 s+ , FC1.Feeeer
( 14entif tet . . . . . . . . >CP11 < (F03. Feeder Aeroere...........)tRFC8' (F01.Foeder Nest.............e> _
, ENttetNCY B88P0888 FACILITT COMPUTER STfftR (ERFCS) ~ '
c- 3 '(F06.TELECONN record !$......')CP . y ,. 4L*--* Operettonal steteet . .. .
'(F06.Vtaa8tatus toperet osalti> False ,
~ (F01.0peratiemel Dete.'..'.'.. . .112/31/96 ' (F08.nese:Statse Comments.. ...)Seepose--e :
NARDWAR$ RAS DI:!N INSTALLED AND TESTEt._ V4V EFFORTS 3ROULD DE C00tPLETED 97 DECEMBER 1996. hit :-*** Systee bordwarelsetteere seetroceests
- 1. . (F10. CPU neeviacturer ........tPt!NE (F11. CPU Ne491..... 1150 4 i(F12.Operet tes - 8pstes... ......lPRIN03 REY. - 18.3 -
p y(F13.Nese Systoe lettoere...'..>potApplic
-n. + @" i---- koles et--utility and vendors in developeest/eainteesseen U F15.UtilitF did Appineettont.3 False, (F19.Util netsteins App 18ettef> Tree , _-(F16.Appinealetteare 9 enders.e> '~
1 . QUADRtt" O' (F11.Neso: Vendors Addree6es...lleeNeo***e
=1100 DELL AVENUE: CAMPDELL.'CA 96008-6986-i
+' - -* Detacoes toebaneel ettf ab'utes supported by the eespeter esenrosseat -
fr20. Serial. food Poestblet...)True (F21.Asyne eetilabletlTrue (F22.Vbet non-asyne ProtoconstiN ; 1
<T23.Cheretter Code...........) ASCII.-
!4F24.tendrete Range...........615-9600 (F25.Nesteus loudrete..'.......) 9600
' (F26. ION /20FF.!!cv catt) selbitTrue (F21.ERDS can be Vanilla Trealt>True
- *-** Port settlebtlity end needed prodeetst
. .. <<F28.BRD8' Port now entstet.... True (F38. ERD 8' port to ERD 8+ealy...)True (F29. Ports een be Addedt......ltebeowe JF30.f eeder Reeds Bordesret...)Felse (F33.Rerdeere Cost $estteete..) +8.00
<T31.Neso Nordvere seeded.....nNot&pplie
- (F34.peeds Softvere Productst.> False --(F37. Ster Proderts Cost 8est. 3. 8.00
'(F35.neso:Softsere seeded.....)MotApplic
_--**,0perettonal espects:
-i(F04. Feeder Loest t on. .'. . . . . . .e >
COMPUTER R0r* ADJActNT 70 CONTROL 900N H F39.Noot Up Potat at sate...v> f 20F '
,F40.Deley til turn-oe (bourell- --9.00
; 4 s
,--- Mastellaneoust; . . .
.<F44.lsplementation Cost Sest.) ' 41000.00 MF4).Nesoslepleoentatton NoteelseeNeso--e= .
PRICE PROVIDED IN FIELD INFL.C0878 D058 NOT INCLUDE COST OF DATA C0lOlUNICAT70N8 39UIPR8WT AND PNONE LINE.
. .. MF41.Neto Contacts for feeder.)SeeNeme**e Q ,8URVET COORDINATOR: J08tPR RAkNDEN.,821dl 919-8220 This feeder bes 1 CUST0tN records and 1 DATAgtN records, 1
' . d.
C3-2-40 p J
3 s'.o- ,}. i . 4 ; p.- t 9
' JATACEN database file. praeted 02/18/81 becor46e Il (p a *6 e Not&pplicablen tU e *9 e Unknovel '
CT11 = (D01. Feeder 14entifter....... 8CP11
**-* &ar precedents for en ERD $*1ike feett **
(D02.!AD$*13ne precedent hereflunknova (DO). precedent ts Operationalflunknova (D04.Desotprocedent 's Detetis.punknove
**** Wea practing eberseters is evtputt (301. output drives 4 CRT?.....)True .
(D01.bes Cursot&ddressag eeds?>Unknova 1 (D09.bos traal sportfie eedo?.lDahnova
-*- !apute reguared to get outputt
. <D10.needs !apets f or art up4?)Dakaoen (D2). outputs per3Ddie e/o lap?)Dabe9We (D11.Deestseeded Inputs.......)Dakseen (D1).Reeciprompts for tapets. 30eknova -
(D15. typed & heed taput 18.ekt..)Datteva
**- 8ttutture of the output streest-(Dal. output (Liaos.Cols.0therilU (911.Rese: Output descripties..lDakseen -
(D38. output 4thers/Dpdato.....)- . *9 (D19. 4 Junk ta Dut put. . ... .. . ) att-
.r;;
~
. (D06.0utputs encheated tels?..)Dakaown - (922. output Casteetteble?.....npakassa (D30. css output Plant want ID?> Bot &ppine (D32.ces output 3roclock Time?lDakaoes (D33.assa could pause >beect..lunknown (934.nea pause teocl likely...) -9
**== Structure /formet of a dele potat eelse's elements:
' (D)S.eech value's Forest......>U
<D20.Ponat ids la Dutpat?.....) Unknown (D31. ten,timefag eeth date pt?lDakasea (D39.eng Units are F1 ed?.....)Dakasee
~**** Quality tats (D21 0ue11ty Tags at Output?..lunknova 'P)6.Mose19eeltet outp Details >Dakseva
--** Update frequenesset ,
(D24. output Update Frese.....el *
,/ U (D25. slowest' outy Updfret teetl) -9.00 (D26.f astest outp UpdFrettseel) -9.00 (D21.R1; outp Upd fret teet).e>
.y-
, 4328. Red outp Upd Free feeci.e>
U (D29. Met outp Upd fret (seen.e)
.U
--*-* Date point desersytors' svetlebilityt (D40.pt Deser -lato Outp poestlUnknove
---* Mastellaneoust (D41.Menellettementattos Notest$eeMeso-*v-TM18 DATASTRCAM CEFERAT09 FIED3 A CRROMATICS TERMINAL.
i C3-2*42 f a
ld a - 4I .-o) 4l l. l l
< ; TELECONM detsbese file. printed 02/18/81 Recoreta 11 (p e 8 e pot &pplicablel tU --t e Ustacea)
. CP .
s
' <T01.TELECONn record ID. . . . . . . >CP
- Telephone antormestos about the sitet a-(104.Telepboat to for site....) CONT!BtWTAL TEL C0 0F ft1A8
'T23.Utti gets Prtority pfenet False (T29.teereNottica on ded ekts?>Talse
- (705.Remotette PBX 3rstems... 88e* Reno- e
- 1. NORTRRRR YthtCost BL 1 Lt.1982 10Ptt&T1058)
- 2. WORTEERS TELEColt SL-1-EN.1985 (CONSTRUCTION)
---- Dialing tato the sitet
- JT01.! award 41altas as eerseltiftwo (708.cas setup laserd dialtag?> Bot &pplic
--- Settsag remote dialtene oto corporate setporkt 8709.Corpset boppant possible?)frue 4712. Comet bepe cembe allowed?) Bot &pplic (T10.CorpNet hops need possestnfree (711.Cor>#et 9 of dtone locas?) 2 (Tad.noa i ettee bop to stone.) 60
. ---* Other strategnes f or byteestag local toegesttent
.(T13.Neestboe brpose congesta?)Unknova
---- Moreel outeerd diallag through site P82:
(T15. PSI cas Present Dtseena?.tralse (T16. PSI f eedbeck in Tones?... True 1 '--tT18. PBX 9tteet to LDiet Bet?.)Felse (T19.besotDarectLDiet Carrtersspot&pplic
'(725.NeeitP98 Petbs to 202/...)Seeneto--e
- 1. ROT &Tts 7800008 24 LOCAL OUTG0150 TRUpts
---- Setting e see line to the sitet
- (T17.stte treaks to 1 C0ets...) 2 (T21.NesotCOs' LDiet Carriers.38eeneto--e AT&T
'? (T27. idle to treak wares selb?tfrue (728.poesible Probleas?.......lT41se
-J---- Ntasellenecess
<TIO:nesottspleoestatten totes >Beenoee--e *
' & NIC90VAVE LINK FORN 8173 TU $00TWVt37895 BELL 18 Iff!LIIED 70 'MAKE EMERSENCT NOTIFICATION 8. LEASED LINES ARE USED Ft?M SOUTNVEST$tN 8tLL TO RE8PECTIVE AUT80RITIE8.. UTILITY 900TINELT U$$$ MICROVAVE LINE TO TRAN8MIT DATA.
(702.Meeo Coatects f or tepee..)Seeneso--e STEVE VARD. . (811) 491-5704 T C)-3-10
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