Draft Emergency Response Computer Sys Availability Study

ML20209G344
Person / Time
Site:	Prairie Island
Issue date:	12/11/1986
From:	Gehlhar J NORTHERN STATES POWER CO.
To:
Shared Package
ML20209G304	List: ML20209G300 ML20209G344
References
NUDOCS 8702050343
Download: ML20209G344 (44)
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Text

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i EMERGENCY RESPONSE COMPUTER SYSTEM AVAILABILITY STUDY l

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PRAIRIE ISLAND NUCLEAR GENERATING PLANT '

NORTHERN STATES POWER COMPANY i

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*** DRAFT COPY - FOR REVIEW ONLY ***

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i J. H. GEHLHAR l 12/11/86 8702050343 870126

, PDR ADOCK 05000282

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f TABLE OF CONTENTS EAGE

1. INTRODUCTION............................................ 1 1.1

SUMMARY

OF PURPOSE................................ 1 1.2 DEFINITIONS....................................... 1 1.3 METHODOLOGY....................................... 1

2. AVAILABILITY OF SUBSYSTEMS.............................. 3 2.1 POWER DISTRIBUTION TO EQUIPMENT................... 3 4

2.1.1 Power to 4.16KV Buses 13, 14, 23 & 24....... 3 2.1.2 Power to 480V Buses 310, 410, 320 & 420..... 3 2.1.3 Power to Computer Equipment................. 8 2.1.4 Power to Computer Room A/C................. 13 2.2 COMPUTER HARDWARE AVAILABILITY................... 15 2.3 AIR CONDITIONING SYSTEM AVAILABILITY............. 17 2.3.1 Control Power Logic........................ 17 2.3.2 Equipment Reliability...................... 17 -

2.3.3 Heat Load and Equipment Capacity........... 23 a

i 3. OVERALL AVAILABILITY OF ERCS........................... 23

REFERENCES....... ................. ............... ..... 25 APPENDIX A AVAILABILITY DATA & CALCULATIONS.............. 27

! APPENDIX B LOADS ON UPS DISTRIBUTION PANELS.............. 30 l

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INDEX TO FIGURES AND TABLES '

EAGE FIGURE 2.1.2-1 AVAILABILITY BLOCK DIAGRAM FOR 480V 4 BUSES 310 & 410 (TRAIN A)

FIGURE 2.1.2-2 AVAILABILITY BLOCK DIAGRAM FOR 480V 5 BUSES 320 & 420 (TRAIN B)

FIGURE 2.1.2-3 SIMPLIFIED AVAILABILITY BLOCK DIAGRAM 6 FOR 480V BUSES TABLE 2.1.2-1 RESULTS OF AVAILABILITY CALCULATION 7 FOR 480V BUSES TABLE 2.1.3-1 NORMAL & BYPASS AC SOURCES TO UPS 9 FIGURE 2.1.3-1 AVAILABILITY BLOCK DIAGRAM FOR UPS 10 PANELS 314, 413, 314 & 414 TABLE 2.1.3-2 RESULTS OF AVAILABILITY CALCULATION 11 FOR UPS PANELS FIGURE 2.1.3-2 TYPICAL POWER CONFIGUATION FOR RMUs 12 NOT SUPPLIED FROM UPS PANELS FIGURE 2.1.4-1 POWER SUPPLY TO COMPUTER ROOM A/C 14 FIGURE 2.2-1 ERCS COMPUTER HARDWARE OVERALL AVAILABILITY 16 BLOCK DIAGRAM FIGURE 2.3.1-1 AVAILABILITY BLOCK DIAGRAM FOR 18 RECEPTACLE PANELS 1RPA31 & 1RPB29 FIGURE 2.3.2-1 A/C SYSTEM AVAILABILITY BLOCK DIAGRAM 19 TABLE 2.3.2-1 RESULTS OF BINOMIAL PROBABILITY 20 DISTRIBUTION FUNCTION FOR A/C UNITS TABLE 2.3.2-2 RESULTS OF AVAILABILITY CALCULATION 21 FOR A/C SYSTEM FIGURE 3-1 ERCS OVERALL AVAILABILITY BLOCK DIAGRAM 24 i

TABLE A-1 FAILURE RATE DATA AND AVAILABILITY 28 CALCULATIONS FOR VARIOUS COMPONENT TYPES

! TABLE B-1 LOADS ON UPS DISTRIBUTION PANELS 31

! TABLE B-2 COMPUTER EQUIPMENT POWER SOURCES FROM 38 UPS PANELS SORTED BY DESCRIPTION i

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1. INTRODUCTION 1.1

SUMMARY

OF PURPOSE This availability study for the Emergency Response Computer System (ERCS) evaluates the reliability of the computer hardware and its configuration as well as the reliability of the support systems such as power supply and the air conditioning system. The operational availability goal of the Safety Parameter Display System (SPDS) is 99% and the Cold Shutdown (CSD) goal is 80% as defined in NUREG-0696.

This study will review redundancy in the computer system as well as in the areas of power supplies and air conditioning to ensure that the availability goals can be meet.

1.2 DEFINITIONS NUREG-0696 defines operational unavailability as Downtime divided by the Operating Time. Downtime is defined as any length of time the SPDS data system, instrumentation, and power supplies are unavailable when the reactor is above cold shutdown status because of the following:

o inability to perform its intended function; o impaired ability to perform its intended function due to degraded circuits, equipment. power supplies, or instrumentation (this shall not include truly redundant equipment such as core thermocouples or computer peripherals);

o unreliable performance due to lack of adequate sensor data; and f o scheduled outages to perform preventative maintenance on

instrumentation equipment, power supplies, or sensors.

1.3 METHODOLOGY i

1.3.1 Availability of Components In general, the availability of a component is unity minus I the sum of the unavailabilities. For this analysis,

. unavailabilities were considered due to forced repairs due to l random failures as well as scheduled maintenance and testing l

which would cause the component to be out of service.

The terminology used to express the unavailability of a component due to repairs of failures involves the Mean Time Between Failures (MTBF) and the Mean Time to Repair (MTTR).

Unavailability due to repairs is expressed as unity minus the ratio of MTBF to the sum of MTBF and MTTR.

4 o .

Mean Time for Maintenance per Year (MTMY) is the average number of hours that the component is unavailable because of scheduled maintenance during a year. Unavailability due to maintenance is then given by MTMY/8766 where 8766 is the number of hours in a year (365.25 days x 24 hrs / day).

Mean Time for Testing per Year (MTTY) is the average number of hours that the component is unavailable because of testing per year. Unavailability due to testing is then given by MTTY/8766.

Unavailabilities due to maintenance and testing need to be adjusted to account for the fact that only operating time above Cold Shutdown is considered for the Operational Availability. This will involve multiplying by the plant availability factor for components that operate continuously regardless of plant status.

1.3.2 Availability of Subsystems and Systems In a system where the components are arranged in series, the system will fail if any of the individual components fail.

The availability of a_ serial system is calculated as the product of the availabilities of the individual components in the system.

A parallel or redundant system will fail only if all of the components in the system fail. The availability of a parallel system is calculated as unity minus the product of the unavailabilities of the individual components.

6 8 s

2. AVAILABILITY OF SUBSYSTEMS 2.1 POWER DISTRIBUTION TO EQUIPMENT 2.1.1 Power to 4.16KV Buses 13, 14, 23 & 24 Bus 13 & 14 (Unit-1) and Buses 23 & 24 (Unit 2) are the power sources to the heater drain pumps, circulating water pumps, condensate pumps, and cooling water pumps. Therefore, for evaluating operational availability, if Unit 1 [2] is above Cold Shutdown then Buses 13 & 14 [23 & 24] are available.

2.1.2 Power to 480V Buses 310, 410, 320 & 420 Figures 2.1.2-1 & 2 show the availability block diagrams for the Service Building 480V Buses. It can be seen that, barring intermediate component failures, if either one of the units is operating, then the corresponding 4.16KV non-safeguards buses for that unit will be available for both trains A & B. Therefore, for calculating operational availability, one of these 4.16KV buses can be assigned an availability equal to unity while the other the availability of the other 4.16KV bus will be reduced by the unavailability due to scheduled maintenance on the buses and circuit breakers.

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' 4.16KV BUS INPUT BKR 31-2 03 DIESEL BUSTIE BKR 3141 6ENERATOR 4.16KV BUS INPUT _

BKR 41-2 4.15KV .488KV 480V CKT

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480V BUS 419 481 XFMR BKR 41N 4.16KV -

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BKR 32-2 I BUSIlE 04 DfESEL BNR 3242 6ENERATOR 4.16KV BUS INPUI _

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488V BUS 429 402 XfMR BKR 42N 4.16KVBUSOUTPUI 4.16KV BUS INPUy giV _

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FIGURE 2.I,2-2

SET;D AVEAllT 10CC IAGlAE 703

<fOV ESIS 1.0 & (0 ("lAI A) AD 320 & 420 ("lAI 1) j 2 3 UMil 14.16KV BUS - 4.16KV BUS OUTPUI _ 4.16KV BUS INPUT CKT BKR CKT BKR 5 18 i 4 9 j; ,,

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488V BUS 7

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cgr ggg  ; egt ggg FISURE 2.1.2-3

RESULTS OF AVAILABILITY CALCULATION FOR 480V BUSES Recordtt NO CODE COMP AVAIL CALC 10 0.0 B SY3TEli 0.999970016737413 YEG 9 00 B.01 0.999999992287394 YES IU 0.0 P.03.01 .

9999c3300187340 YET' 1 1.0 B.01.01.01 A4160 BUS 0.999999090000329 NO 2 P.0 B.01.01.02 4160V CB 0.999992400057760 NO 3 3.0 B.01.01.03 4160V CB 0.999992400057700 NO 11 0.0 P.01.02 0.975041186538455 YES 7 4.0 B.01.02.01 ADGLGEN 0.975048596051472 NO 4 5.0 B.01.02.02 4160V CB 0.999992400057760 NO l' O.0 ".nl.03 0.990018315508572 YEC 1:1 0. 0 B . 01. t ! .*i . 01 A4160 BUS 0.999998144003454 NO 6 7.0 U.01.03.02 4160V CB 0.999992400057760 NO O 8.0 L.01.0'; 32 41COV CB 0.999932400057700 NO 10 0.1 D U 1. 't . 0 4 4163MAINT 0.990S'J6044490075 NO t 9 0 P '? 2 A11En00? 0.999930.41001454 t:0 13 ic 0 IJ . U :' AXFIE' O 9 9 9'

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2.1.3 Power to Computer Equipment Table 2.1.3-1 list the normal and by-pass AC sources to the Uninterrupible Power Supply (UPS) modules and Figure 2.1.3-1 shows the availability block diagram for the UPS Panels. It can be seen that the bypass AC sources to each of the UPS modules are from the 480V buses in the same train for the other unit's equipment. The power to the UPS panels a is very reliable configuration because the normal AC power is backed up by batteries and this is backed up by a bypass source of AC power should the inverter become inoperable.

Appendix B lists the loads on the UPS distribution panels.

A typical power configuration for Remote Multiplexing Units (RMUs) which are not powered from the UPS panels is shown in FIGURE 2.1.3-2 .

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NORMAL AC INPUT BVPASSSOURCE UPSPANEL UPSliODULE BUS BKR BUS BKR MCC-CELL 313 33 310 316 410 4 11 4Al-A3 413 43 410 416 310 315 3Al-A3 I

e 314 34 320 326 420 425 4A2-A3 I 3A2-A3 414 44 420 426 320 321 IABLE 2.1.3-1

AVA1AL:"Y LOC 1 IA01AT 70:1 L?S 3AES 3A, z 3,3% & a /

t 2 BA1TERV DISC BATTERV -

0 CX1 BKR (CB2) 7 IMYERIER (CB3) 3 5 6 INVERTER

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CKT BKR (CBD CHARGER 15 HALONDUNP Sl6HAL NOT UPSPANEL ACilVATED 11 12 13 9 la MCC-CELL INVERTER XFMR -

BYPASSCKT i 488YBUS 480V CKI BKR INVER1ER MalHT 480-120/288VAC BKR (CB4)

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RESULTS OF AVAILABILITY CALCULATION FOR UPS PANEL (FILES: AVAILUPS.DBF INDEX AVAILUPS.NDX)

Record # NO CODE COMP AVAIL CALC 13 0U UPSPNLSYS 0.999899999810281 YES 14 0 U.01 0.999999999810262 YES 15 0 U.01.01 0.999973500124716 YES 17 0 U.01.01.01 0.999999999475388 YES 18 0 U.01.01.01.01 0.9999970435060",1 YES 1 1 U.01.01.01.01.01 BATTERY 0.999999243500568 NO 2 2 U 01.01.01.01.02 CKT BKR 0.999998000004000 NO 19 0 U.01.01.01.02 0.999809681448812 YES 3 3 U.01.01.01.02.01 AVAILABLE 1.000000000000000 NO 4 4 U.01.01.01.02.02 CKT BKR 0.999998000004000 NO 20 5 U.01.01.01.02.03 CKT BKR 0.999998000004000 NO 5 6 U.01.01.01.02.04 RECT /CHGR 0.999813680691537 NO 6 7 U.01.01.02 UPSINV 0.999975500596315 NO 7 8 U.01.01.03 CKT BKR 0.999998000004000 NO 16 0 U.01.02 0.999992840032514 YES 8 9 U.01.02.01 AVAILABLE 1.000000000000000 NO 11 10 U.01.02.02 CKT BKR 0.999998000004000 NO 9 11 U.01.02.03 A480 BUS 0.999999040000922 NO 10 12 U.01.02.04 480XFMR 0.999997800004840 NO 21 13 U.01.02.05 CKT BKR 0.999998000004000 NO 22 14 U.02 HALONDUMP 0.999900000000000 NO 12 15 U.03 UPSPNL 1.000000000000000 NO TABLE 2.1.3-2

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2.1.4 Powor to the Computer Room Air Conditioning System Figure 2.1.4-1 show the diversity in the sources of power to the air conditioning equipment. The equipment is divided equally between Train A and Train B with one glycol pump, three A/C units, and three glycol coolers per train. Train A refers to the motor control centers getting power from Bus 310 or 410, while Train B is from Bus 320 or 420.

The availability analysis for A/C system power will require all six motor control centers to have power, so this will be modeled as six 480V MCC supply circuit breakers in series.

The availability of equipment supply circuit breakers will be incorporated into the A/C equipment calculations shown in TABLE 2.3.2-1 and TABLE 2.3.2-2.

Calculation:

Availability of Single Ckt Bkr  : .999998 Availability raised to 6th power : .999988

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' jCRI BKRHMCC 4BlH ' CELL B1 HCELLB2 123 GLYCOL C00LE3j

'yLL B3 125 GLYCOL CCOLER!

-CELL 32 .24 9/C UN!!.

HC(I MR -)MCC 392.L T

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j --CELL B3 :26 A/C UNiii 80s220--i i -iCELL A4 122 3LYCOL PUMP

_ ,. H CELL Bl 122 GLYC)L COOLER HC(1EKRHMCC432U t--l CELL B2 124 3LYCOL COOLERl

-iELLB3 126GLYCOLCOOLER!

4 BUS 42( CKT BXRHMCC 4A2l CELL B4 125 A/C UNH k

FIGURE 2.L4-1 L'

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2.2 COMPUTER HARDWARE AVAILABILITY Science Applications International Corporation (SAIC), which configured the computer hardware and wrote the software for the. ERCS, did an availability analysis for the ERCS computer hardware.

The overall availability block diagram, FIGURE 2.2-1, shows the subsystems for data input, processing, communications and display. The result for the overall availability for the computer hardware was 99.82 percent. Further details such as the breakdown of the subsystems into more detailed block diagrams and the failure rate data for individual components can be found by referring to the SAIC analysis in the the References.

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502-3901000-02 HARDWARE DESIGrl Page e-3 AVAILADILITY CALCULATIONS 10 November 1996 g -

SYSTB1 Asyg = 0.99022642 succ1ss

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2.3 AIR CONDITIONING SYSTEM AVAILABILITY This section discusses the availability of the air conditioning system excluding the primary power to the equipment.

2.3.1 Control Power Logic The ways in which the A/C package units can be tripped are as follows:

o Presence of Halon Dump Signal from Fire Detection o Loss of power to HVAC Panel W1 from Pnl 1RPA31-19 o Loss of power to HVAC Panel W2 from Pn1 1RPB29-13 o Loss of air supply to pneumatic relays EP-2 or PE-1 Receptacle panel 1RPA31 is feed from 480V Bus 410 (Train A) while panel 1RPB29 is feed from Bus 320 (Train B). Loss of power to either of these panels represent a single point of failure causing all A/C units to trip.

2.3.2 Equipment Reliability The availability of 4 or more A/C units out of 6 is a k-out-of-n system which follows the binomial probability distribution function and is expressed in equation form as n

N nT x n-x A* = / (x/A (1-A) x=k (n) ___nt where \ x/ is the binomial coefficient equal to (n-x)!xt and A is the availability of a single air conditioning unit.

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i-A1,'ALAML.'?t I0C1 IArilAE. ?0:1-ECP"ACI 3AES FA3;. & 3P329 1

J, MCC 4A1 HCELL BI i l BUS 410 H CKT BKR l480-!20/208V XFNRl-i FNL :RPA31 i

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jBUS 323 H CK! BKRl l MCC 362 HCE.LEll l400-120/206V XFMR H FML ;RPB29 i i

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RESULT 3 OF BINOMIAL PROBABILITY DISTRIBUTION FUNCTION CALCULATION FOR A/C UNITS & DRY COOLERS A,., A .r u iu' mr_r u i .-

Single A/C Unit & Dry Coo}er 0.969733059548255 Circuit, Breaker for A/C Unit 0.999998000004000 Circuit Breaker for Dry Cooler 0,999990000004000 Net (3 availabilities in series) 0.9897291006278935 PROBABILITY

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                            '7         4.OG.01 O L'                                                 G PMI' MTR n . 99999",1*/O117504-1 No on n; ' a                                                 ta ,go w                                    n 9 9 9 p u r;.n : n t n ,i n o r                                                 ?

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2.3.3 Heat Load and Equipment Capacity Gibbs & Hill (Ref. GNSC-104, 10/25/84 letter) calculated the heat loads for the computer room and the results are as follown: Heat Load (Btu /hr) ERF/PPC & RDA Equipment 495,616 Transmission (walls & doors) 88,000 Lighting (3 W/Sq ft) 39,158 . Occupants (10 people) Sensible 2,168 Latent 2,550 Makeup Air (600 CFM Sensible -13,709 9 55 DB, 52 WB) Latent 600 Subtotals Sensible 611,233

Latent 3.150

============================================================

Total 614.383

                            + 10% Overload Factor                               61,400

! ================= 675,783 Btu /hr i This calculated heat load is somewhat higher than the actual heat load because it includes more ERF/PPC equipment than is used in the current ERCS configuration. Using the Sperry 1100/71 data sheets 95.000 Btu /hr heat load , is estimated for the Sperry computer equipment giving a total ! of 675,783+95,000=770,783 Btu /hr. I Since the cooling capacity of the Blazer 200ES Air Conditioning Unit is 214,000 Btu /hr, a total of four air conditioning units will be required to cool the Computer Room and its equipment. The two additional air conditioning units , will serve as stand-by units. Thus, the availability block diagram FIGURE 2.3.2-2 shows a 4 out of 6 logic block for the

air conditioning units.

i I d i

r t,

3. OVERALL AVAILABILITY OF ERCS The availability of the Emergency Response Computer System is primarily a function of having power at the UPS panels for the computer equipment and having computer hardware functioning properly. This analysis makes the assumption that the computer software works perfectly and will not cause the system to " crash" or " lock-up" under any circumstances.

The air conditioning system plays a support role in the availability of the ERCS. Due to the heat sensitivity of the computer equipment, it is conservatively assumed that the ERCS availability is dependant on the A/C system availability without regard to air temperature. This assumption maintains that the air conditioning system helps to insure against improper data interpretation or processing by the computer system. i

                                                                                                                                                   .a 4

ERC3 OVERALL AVAILABILIT'( BLOCK DIAGRAM Availability

rr:._:

w

             .              SYSTEM GUCCEE_

0.936372238G57758 a - l _ A/C EQUIPMEllT _ 0.9989314373.'27787 l COMPUTER fiARDWARE U.998226420000000 e-- POWER TO RMUs 110T 0.039990000000000

            .               GUPPLIED BY UP3
                 } rwy,p          c~ n c' en Y EU:'F '                               '

9 9 '2 9 " 0 0 0 N a '.' 0 0 0 TO * ' EC.; I I'ME t:T l'OWER '*RcSt 4 80 7 pun ' ~' , 1 . 9 3 9 p ? 9 9 9 9 '" "-

n. . 3. ,- p. .

I e

                       ::W F ' Tr. .; >o v             _;U S E            I      o , E2999 c7 4 418. ~ :;r T 'c A .r t -   f.                        l 4

r , , , 7. - ,; ;v m ,- , o pn7. ; , - TRA f; P l' m.' .j ! y __ _ _ I REFERENCES EUBLISHED DOCUMENTS: NUREG-0696 " Functional Criteria for Emergency Response Facilities". US NRC, February 1981. IEEE Std. 500-1984, " Guide to the Collection and Presentation of Electrical. Electronic, Sensing Component, and Mechanical Equipment Reliability Data for Nuclear Power Generating Stations. IEEE Transactions on Reliability, Vol. R-25, No. 3, August 1976. " Quantitative Evaluation of Nuclear System Reliability and Safety Characteristics" by J. B. Fussel ] & H. E. Lambert. EPRI Report NSAC-108, "The Reliability of Emergency Diesel Generators at US Nuclear Power Plants" September 1986 HARDWARE DESIGN - VOLUME 2. Spec. No. 381915-001 Document No. 502-8901000-02. 11/10/86 By SAIC ! Contains ERCS Computer Hardware Availability Analysis. LETTERSL ' 06/09/83 Letter from J. Neel. NSP to D. Althaus. NSF "HVAC Requirements for the Computer Room of the Service Bldg" 05/25/84 Letter from K. Slingsby to J. Neel with Sperry 1100/71 Equipment Data Sheets. l 09/13/84 Letter from J. J. Lula, FEI to E. J. Sabaitus. NSP ! " Computer Room Heat Loads" l l 10/25/84 Letter from E. A. DeRienzo. G&H to E. J. Sabaitus j " Computer Room Heat Loads" DBAEINGS1 NF-93013 Service Bldg Additon - HVAC Flow Diagram - Sheet 1 NF-93014 Service Bldg Additon - HVAC Flow Diagram - Sheet 2 NF-93015 Service Bldg Additon - HVAC Plans at El. 695' & 715' and Sections 1-1 & 2-2 NF-93016 Service Bldg Additon - HVAC Plans El. 735' & Roof NF-40020-1 Circuit Diagram 1 & 2 Generators & 4.16KV Equip i w ,-we - -- - . - , -~w....,. .,- -,.,,.,-e -r- , - - - ,.-,,-----.---...~c-e.m., , - - . - . --,--e,, _,e, -.---

DRAWIhGS (Cont.): l NF-93030 Circuit Diagram 480V MCC 3A Bus 1, 4A Bus 1 & 4B Bus 1 NF-93031 Circuit Diagram 480V MCC 3A Bus 2, 4A Bus 2 & l 3B Bus 2 NF-93040 480V Distr Diag Serv. Bldg Busses 310,320, 410 & 420 NF-88597 Circuit Diagram Computer UPS 33, 43, 34 & 44 NF-88598 Wiring Diagram Computer UPS 33, 43 l l NF-88599 Wiring Diagram Computer UPS 34, 44 r l l l

0 APPENDIX A AVAILABILITY DATA & CAT.CULATIONS i o

Page lie. I Avail d ility Calculations and Sources of Data for Varisus Component Types Component Failure Rate ser MITR MiMY MTTY Availability ~ ~ Source of Failure Ratt Data 1,000,0M k s IMRI) (HRll (HR$) 6 Caseents 41 MV CKT IKR 2.000 3.00 0.00 0.M 0.9999924000577M IEEE Std. 500-1984 Page l# , f 3.1.1.2.2.2aheve$40 volts. 1 ClNT FACTOR FOR 4160V 0.M0 0.00 168.00 0.00 0.90003504449M75 Train of 2wks/every 41MV p(eser out of

                                                                      '                                                                                  service    lutlyr            other year) a6 estiented by systes engineer. Transformer & Ctt Str are done at the saae time. 4160V buses DOS sould be 13631,23641, 14632,24642.

400-120/200V K IFMR 1.000 2.20 0.00 0.00 0.99999700Md4440 IEEE Std. 500-1994page3M. 6.1.5.3 Transf. Pouer 400-200Y/120VE, 3-Phase. BLAZER A/C Utili 0.000 0.M 90.00 0.00 0.999733059548255A/Cunitisoutofservice90 brs/yr for saintenance as estiested by systes engineer. Maintenance on the dry coolers is done at the same ties. 4.16KV BUS 0.070 13.00 0.00 0.00 0.9999990900M829 Free IEEE Std. SM -1994 saae 809. 9.5.1.4 Uninsulated, MD 9K and up. 400VIUS 0.040 24.00 0.00 0.00 0.99999904MM922 Fros IEEE Std 500-1984 saae 900. 9.5.1.3 Uninsalated, 64M VAC. 400V circuli BREAKER 0.500 4.00 0.M 0.M 0.99999t M M04000 IEEE Std. SM 1984 Page 139. Fe.nure rate free 'All Modes' of failuresfor 3.1.1.2.2.1 0-600 Volt. EMERGENCY DIESEL SEN 0.000 0.00 72.H 24.00 0.97504459H9472ERPIReport'TheRollabilityof Energency Diesel Generators at US Iluclear Power Plants' blE-! M , Final Report Sept.1996. This rehort covers the 3 years 1983The 'over 19 4 6 1985. availability was 98.6% for test and unplanned demands. Systes engineer estimates out of service tIses of 72 hrs /yr for saintenance and 24 hrs /yr for survellance testine and correction of any discovered problees. 4.16KV .480KV TRANSFORMER 0.290 64.00 0.00 0.00 0.999981440344671 IEEE Std. 500 1984 paes 343 Section 6.1.5.7,7$12499KVA.

BAliERY 0.890 0.95 0.00 0.00 0.999999243500560 IEEEStd. 500-1984page84. Lead

! Acid Stationary Storage lattery 4 Composite. FANS 2.400 1.51 0.00 0.00 0.999996255213964!EEEStd. 500 1984 page 1251, ' II.5.2.s Coeposite. 6LYCOL PUMP 180.000 26.30 9.00 0.00

'                                                                                                                                     0.994375725749972          IEEEStd. 500-1984lfualP ge 990, 11.1.2.4.3.sCentr

' Continuous Service Sy tes Coeplite. Ost of service I hours /vr for saintenance as estleated by i stes engineer. Pues noter has f done at the saae ties. SLYCOL PUMr M0iDR 5.700 1.90 0.00 0.00 0.9999M170ll7504IEEEStd. Page Modes 225I 30 MHP, 4M 500 1994,All VAC, of Failures.

                                                                                                                 - 2.8 -

Pagepe. 2 . Avall Cility Calculations and Sources of Sata for Various Component Types Component Failure Rate per MTTR MTM MITY Availability ~~~ Source of Failure Rate Data 1,000,000 Mrs (NRS) (NRS) (HRS) 6 Coseents PIINERTERS 13.3H ll7.H 0.00 0.00 0.990441651049040 Prairie Island Plant Specific Data on Inverters through second quarter 1996 frse NPRDS. No. of falleres=3. PNUEMilC RELAY 0.390 50.H 0.H 0.00 0.9999H500300516 IEEEStd. 500-1904 sage 207. Pnuseatic relays, IM-199 VAC. RECilFIERICHARGER 3.570 52.20 0H 0.00 0.999013600491537 IEEEStd. 500-1904 page 64. 2.1.1 Composite. REFRie COMPRESSOR 59.5M 17.20 0.00 0.00 0.999977644090032 IEEE Std. 500-1904 page 1237. 11.5.1 Compressor Composite. Iluer Package Coopressor is a 10HP Herestic type. UPS IHERTER 9.000 2.50 0.H 0.00 0.999062003667271 IEEEStd. 500-1904. Failure rate free page 277 for 3-Phase Static inverter. Repair ties free page 275 fer UPS Composite. Out of service time for saintenance is I hrs /yr as entiested by systes engineer. APPENDIX B LIST OF LOADS ON UPS DISTRIBUTION PANELS

                       - Sorted by Panel            ,
                       - Sorted by Description

i ,;

         ',                                                             Ercs PNL Pago No.       1 10/20/86 ERCS POWER SOURCES FROM PANELS PANEL BKR NO       DESCRIPTION
            **  3131 3131 PANEL:        3131      (120/208VAC) 3131 ' LOCATION:   SERV BLDG F.9/1E.0/715' COMPUTER ROOM 3131 SOURCE:       UPS PANEL 313 CKT 1 121 INVERTER ROOM -

SERV BLD

            ~3131    

REFERENCE:

NF-74564-1 3131 1 LA120 PRTR/KB RDA111 RECEPT 3131 2 TS11 MAG TAPE RDA103 RECEPT 3131 3 RM03 DISC DRIVE A RDA105 RECEPT 3131 4 PLANT F.O. CAB RDA113 RECEPT 3131 5 RM03 DISC DRIVE A/B RDA107 RECEPT 3131 6 COMMUNICATIONS CAB RDA115 RECEPT 3131 7 ERFCS A CAB 1E121 RECEPT 3131 8 VAX II/750 CPU A RDA101 RECEPT 3131 9 RM03 DISC DRIVE C RDA108 RECEPT 3131 11 RA81 DISC DRIVE DA109 RECEPT 3131 12 PLANT MODEM CAB RDA114 RECEPT 3131 13 ERFCS A CAB 1E123 RECEPT ' 3131 14 ERFCS CPU A CAB 1E107 RECEPT 3131 17 ERFCS/PPCS A/B AUX CAB 1E/P128 RECEPT 3131 22 RRD4C CPU CRT A RDAA6C

            **  3132 3132 PANEL:        3132       (120/208VAC) 3132 LOCATION:     SERV BLDG F.1/2E.0/715' COMPUTER ROOM 3132 SOURCE:       UPS PANEL 313 CKT 2 121 INVERTER ROOM -

SERV BLDG 3132

REFERENCE:

NF-74564-1 3132 1 MUX CPU A CAB 1M107 (1M103) 3132 3 PPCS CPU A CAB IP107 3132 4 MUX A DISC DRIVE IM101 RECEPT 3132 5 MUX PTR IM61P RECEPT 3132 6 PPCS A CAB iP121 RECEPT 3132 8 PPCS A CAB 1P123 RECEPT 3132 9 PPCS A DISC DRIVE 1P103 RECEPT 3132 10 PPCS A DISC LRIVE 1P101 RECEPT 3132 12 ERFCS A DISC DRIVE 1E101 RECEPT 3132 13 PPCS A DISC DRIVE 1P105 RECEPT 3132 14 ERFCS A DISC DRIVE 1E103 RECEPT 3132 15 MUX CAB 1M109 RECEPT 3132 18 ERFCS CPU A CONSOLE 1E51C RECEPT 3132 20 PROGRAMMER AREA WORK STATION #14 RECEPT 3132 21 PPCS CPU A CONSOLE 1P51C RECEPT 3132 22 MUX CPU A CONSOLE 1M51C RECEPT 3132 23 PROGRAMMER AREA WORK STATION #1 RECEPT

            **  3133 3133 PANEL:        3133      (120/208VAC) 3133 LOCATION:     AUX BLDG 715' N WALL P250 COMPUTER ROOM 3133 SOURCE:       UPS PANEL 313 CKT 3 121 INVERTER ROOM -

SERV BLDG

                                               .- 3 1 -                  ,

F - 4- Pego No. 2 10/20/86 ERCS POWER SOURCES FROM PANELS PANEL BKR NO DESCRIPTION 3133

REFERENCE:

NF-74564-1 3133 1 CONTROL ROOM PPCS ALARM CRT iP01C RECEPT 3133 2 RMU 125 - MISC RACK 11 3133 3 CONTROL ROOM CONSOLE 1E/P138 RECEPT 3133 4 RMU 126 - U1 INCORE T/C RACK 3133 6 RMU 131 - P250 COMPUTER ROOM 3133 7 P250 COMPUTER ROOM ERFCS/PPCS AUX CAB 1E/P125 RECEPT 3133 8 RMU 132 - P250 COMPUTER ROOM 3133 10 RMU 133 - P250 COMPUTER ROOM 3133 14 CONTROL ROOM CONTROL BOARD B1 SPD 1P07D RECEPT 3133 15 SHIFT SUPERVISOR CRT 1E/P05C RECEPT 3133 17 CONTROL ROOM RRDAC COLORGRAPHIC RDAA2C RECEPT

               **  3134 3134 PANEL:      3134       (120/208VAC) 3134 LOCATION:   TURB BLDG 715' W WALL 13/14 BUS ROOM 3134 SOURCE:     UPS PANEL 313 CKT 4 121 INVERTER ROOM -

SERV BLDG 3134

REFERENCE:

NF-74564-1 3134 1 RMU 152 - 13/14 BUS ROOM 3134 3 RMU 151 - 13/14 BUS ROOM 3134 6 TSC UNIT 1 PPCS/ERFCS PERIPHERALS, (2) RECEPTS

               **  3135                                                     >

3135 PANEL: 3135 (120/200VAC) 3135 LOCATION: AUX BLDG 735' N WALL U1 ROD DRIVE ROOM 3135 SOURCE: UPS PANEL 313 CKT 5 121 INVERTER ROOM - SERV BLDG 3135

REFERENCE:

NF-745G4-1 3135 1 RMU 141 - NORTH OF AUX BLDG OPERATOR ROOM 3135 2 RMU 153 - U1 ROD DRIVE ROOM 3135- 3 RMU 142 - NORTH OF AUX BLDG OPERATOR ROOM 3135 4 RRDAC COUNT RM MCA RDAE7A RECEPT 3135 5 RMU 154 - U1 ROD DRIVE ROOM 3135 6 SPARE 85YS65 AREA RAD MON RACK 1RM3

               **  3141 3141 PANEL:      3141       (120/208VAC) 3141 LOCATION:   SERV BLDG G.0/1E.9/715' COMPUTER ROOM 3141 SOURCE:     UPS PANEL 314 CKT 1 122 INVERTER ROOM -

SERV BLDG 3141

REFERENCE:

NF-74564-1 3141 1 RM03 DISC DRIVE B RDA104 RECEPT 3141 2 TS11 MAG TAPE RDA102 RECEPT 3141 3 LA 120/KB RDA112 RECEPT

                                               -:5CL-

n

   .          Page No.      3 10/20/86 ERCS POWER SOURCES FROM PANELS PANEL BKR NO      DESCRIPTION 3141   4          MUX ERFCS PROGR PRTR/PLTR IM60P.1E60P RECEPT 3141   5          RM03 DISC DRIVE B/A RDA106 RECEPT 3141   6          PPCS PROGR PRTR/PLTR 1P60P RECEPT 3141   9          RA81 DISC DRIVE B RDA110 RECEPT 3141   10         VAX 11/750 - CPU B RDA100 RECEPT 3141   11         ERFCS B CAB 1E124 RECEPT 3141   13         ERFCS B CAB 1E122 RECEPT 3141   14         ERFCS CPU B CAB 1E106 RECEPT 3141   15         ERFCS CPU B CONSOLE 1E50C RECEPT 3141   16         PLANT MODEM CAB RDA114 RECEPT 3141   17         PLANT F.O. CAB RDA113 RECEPT 3141   19         COMMUNICATION CAB RDA115 RECEPT 3141   20         ERFCS/PPCS A/B AUX CAB 1E/P128 RECEPT 3141   21         PPCS CPU B CONSOLE 1P50C RECEPT 3141   23         MUX CAB B CONSOLE 1MS2C RECEPT 3141   25         PROGRAMMER AREA WORK STATION #8 RECEPT 3141   26         PROGRAMMER AREA WORK STATION #7 RECEPT 4*   3143 3143 PANEL:       3143      (120/208VAC) 3143 LOCATION:    AUX BLDG 715' N WALL P250 COMPUTER ROOM 3143 SOURCE:      UPS PANEL 314 CKT 3 122 INVERTER ROOM -

SERV BLDG 3143

REFERENCE:

NF-74564-1 3143 1 CONTROL ROOM PPCS OPER CRT #3 1P02C RECEPT 3143 2 RMU 125 - MISC RACK 11 3143 3 CONTROL ROOM CONSOLE 1E/?138 RECEPT 3143 4 RMU 126 - UNIT 1 INCORE T/C RACK 3143 5 P250 COMPUTER ROOM ERFC3/PPCS AUX CAB 1E/P126 RECEPT 3143 6 RMU 131 - P250 COMPUTER ROOM 3143 8 RMU 132 - P250 COMPUTER ROOM 3143 9 CONTROL ROOM CONTROL BOARD C1 CRT 1E02C

                                & KEYPAD 1E06K 3143   10         RMU 133 - P250 COMPUTER ROOM 3143   11         CONTROL ROOM CONTROL BOARD El SPD iP06D
                                & KEYPAD 1P08K
             **   3144 3144 PANEL:       3144       (120/208VAC) 3144 LOCATION:    TURB BLDG 715' W WALL 13/14 BUS ROOM 3144 SOURCE:      UPS PANEL 314 CKT 4     122 INVERTER ROOM
                                - SERV BLDG 3144   

REFERENCE:

NF-74564-1 3144 3 RMU 151 - 13/14 BUS ROOM 3144 6 TSC UNIT 1 PPCS/ERFCS PERIPHERALS. (2) RECEPTS 3144 7 TSC RRDAC COLORGR RDAAOC & RRDAC PRINTER RDAA1P RECEPT i i

   .          -Page No.       4 10/20/86 ERCS POWER SOURCES FROM PANELS PANEL BKR.NO         DESCRIPTION 3144     9           RMU 152 - 13/14 BUS ROOM
            **    3145 3145 PANEL:           3145 3145 LOCATION:        AUX BLDG 735' N WALL U1 ROD DRIVE ROOM 3145 SOURCE:          UPS PANEL 314 CKT 5 122 INVERTER ROOM -

SERV BLDG 3145

REFERENCE:

NF-74564-1 3145 1 RMU 141 - NORTH OF AUX BLDG OPERATING ROOM 3145 2 RMU 152 - UNIT 1 ROD DRIVE ROOOM 3145 3 RMU 142 - NORTH OF AUX BLDG OPERATOR ROOM 3145 5 RMU 154 - UNIT 1 ROD DRIVE RCOM

            **    4131 4131 PANEL:           4131     (120/208VAC) 4131 LOCATION:        SERV BLDG HA.1/1E.0/715'      COMPUTER ROOM 4131 SOURCE:         UPS PANEL 413 CKT 1     121 INVERTER ROOM -

SERV BLDG 4131

REFERENCE:

NF-74564-5 4131 1 ERFCS A CAB 2E121 RECEPT 4131 2 ERFCS CPU A CAB 2E107 4131 3 ERFCS A CAB 2E123 RECEPT 4131 7 PROGRAMMER WORK AREA STATION #5 RECEPT 4131 16 SPERRY CPU 4131 18 SPERRY DISTR COMM PROCESSOR CONSOLE 4131 20 SPERRY LINE PRINTER 4131 21 SPERRY CONSOLE TERMINAL 4131 22 SPERRY DISC CONTROL UNIT B 4131 23 SPERRY DIAGNOSTIC PROCESSOR 4131 24 SPERRY TAPE CONTROL UNIT 4131 25 SPERRY CONSOLE PRINTER 4131 27 SPERRY MODEMS 4131 29 SPERRY DISTR COMM PROCESSOR 4131 31 SPERRY DISC CONTROL UNIT A

           **    4132 4132 PANEL:           4132        (120/208VAC) 4132 LOCATION:        SERV BLDG HA.0/1E.9/715' COMPUTER ROOM 4132 SOURCE:          UPS PANEL 413 CKT 2 121 INVERTER ROOM -

SERV BLDG 4132

REFERENCE:

NF-74564-5 4132 1 MUX CPU A CAB 2M107 4132 2 MUX PRT 2M61P RECEPT 4132 3 PPCS CPU A CAB 2P107 4132 4 MUX DISC DRIVE 2M101 RECEPT 4132 5 ERFCS CPU A CONSOLE 2E51C RECEPT 4132 6 PPCS A CAB 2P121 RECEPT 4132 7 MUX CAB 2M109 RECEPT 4132 8 PPCS A CAB 2P123 RECEPT f' . *

• Page No. 5 10/20/86 ERCS POWER SOURCES FROM PANELS PANEL BKR NO DESCRIPTION 4132 9 PPCS A DISC DRIVE 2P103 RECEPT 4132 10 PPCS A DISC DRIVE 2P101 RECEPT 4132 12 ERFCS A DISC DRIVE 2E101 RECEPT 4132 13 PPCS A DISC DRIVE 2P105 RECEPT 4132 14 ERFCS A DISC DRIVE 2E103 RECEPT 4132 15 ERFCS/PPCS A/B AUX CAB 2E/P128 RECEPT 4132 18 MUX CPU A CONSOLE 2M51C RECEPT 4132 20 PPCS CPU A CONSOLE 2P51C RECEPT 4132 21 PROGRAMMER WORK STATION #3 RECEPT 4132 30 SPAC

         **  4134 4134 PANEL:      4134      (120/208VAC) 4134 LOCATION:   TURB BLDG   715' E WALL 23/24 BUS ROOM 4134 SOURCE:     UPS PANEL 413 CKT 4 122 INVERTER ROOM 4134 

REFERENCE:

NF-74564-3 4134 1 TSC UNIT 2 PPCS/ERFCS PERIPHERALS. (2) RECEPTS 4134 3 RMU 251 - 23/24 BUS ROOM 4134 5 RMU 252 - 23/24 BUS ROOM

         **  4135 4135 PANEL:      4135      (120/208VAC) 4135 LOCATION:   AUX BLDG 735' E WALL U2 ROD DRIVE ROOM 4135 SOURCE:     UPS PANEL 413 CKT 5 121 INVERTER ROOM
                           -SERV BLDG 4135  

REFERENCE:

NF-74564-4 4135 1 RMU 241 - WEST OF MCC 2K1 4135 2 RMU 253 - U2 ROD DRIVE ROOM 4135 3 RMU 242 - WEST OF MCC 2K1 4135 4 SPARE 86Y565 AREA RAD MON RACK 2RM3 4135 5 RMU 254 - U2 ROD DRIVE ROOM

         **  4141 4141 PANEL:      4141      (120/208VAC) 4141 LOCATION:   SERV BLDG HA.9/1E.0/715' COMPUTER ROOM 4141 SOURCE:     UPS PANEL 414 CKT 1 122 INVERTER ROOM -

SERV BLDG 4141

REFERENCE:

NF-74564-5 4141 1 ERFCS CPU B CAB 2E106 4141 3 ERFCS B CAB 2E124 RECEPT 4141 5 ERFCS B CAB 2E122 RECEPT

         **  4142 4142 PANEL:      4142     (120/208VAC) 4142 LOCATION:   SERV BLDG HA.9/2E.0/715' COMPUTER ROOM 4142 SOURCE:     UPS PANEL 414 CKT 2 122 INVERTER ROOM -

SERV BLDG 4142

REFERENCE:

NF-74564-5 4142 1 MUX CPU B CAD 2M108 (2M102) 4142 3 PPCS CPU B CAB 2P106 L

Page No. 6

     ~*

10/20/86 ERCS POWER SOURCES FROM PANELS' PANEL BKR NO DESCRIPTION 4142 4 MUX B DISC DRIVE 2M100 RECEPT 4142 5 ERFCS CPU B CONSOLE 2E500 RECEPT 4142 6 ERFCS B DISC DRIVE 2E100 RECEPT 4142 7 MUX CAB-2M106 RECEPT 4142 8 .PPCS B DISC DRIVE 2P100 RECEPT 4142 9 PPCS B DISC DRIVE 2P102 RECEPT 4142 11 PROGR PRTR/PLTR'S 2E60P 2M60P RECEPT 4142 12 ERFCS B DISC DRIVE 2E102 RECEPT 4142 13 PPCS B DISC DRIVE 2P104 RECEPT 4142 14 ERFCS/PPCS A/B AUX CAB 2E/P128 RECEPT 4142 16 PPCS B CAB 2P122 RECEPT 4142 21 PPCS B CAB 2P124 RECEPT 4142 23 PPCS PRT/ PLT 2P60P RECEPT 4142 25 MUX CPU B CONSOLE 2M52C RECEPT 4142 26 PPCS CPU B CONSOLE 2P50C RECEPT 4142 28 PROGRAMMER AREA WORK STATION #9 RECEPT

              **  4143 4143 PANEL:       4143      (120/208VAC) 4143 LOCATION:    AUX BLDG 715' N WALL P250 COMPUTER ROOM 4143 SOURCE:      UPS PANEL-414 CKT 3 122 INVERTER ROOM -

V BLDG 4143

REFERENCE:

NF-74564-2' 4143 1 CONTROL ROOM CONTROL BRD E2 SPD 2POSD & KEYPAD 2P08K RECEPT 4143 2 RMU 225 - MISC RACK 21 4143 3 CONTROL ROOM CONSOLE 2E/P138 RECEPT 4143 4 RMU 226 - UNI 7 2 INCORE T/C RACK 4143 5 P250 CONTROL ROOM ERFCS/PPCS AUX CAB 2E/P126 RECEPT 4143 6 RMU 231 - P250 COMPUTER ROOM i 4143 8- RMU 232 - P250 COMPUTER ROOM i 4143 9 CONTROL ROOM CONTROL BRD E2 C CRT 2E02C I & KEYPAD OE0GK 4143 10 RMU 233 - 50 COMPUTER ROOM 4143 11 CONTROL ROOM PPCS OPER CKT #3 2P02C

RECEPT

! ** 4144 ( 4144 PANEL: 4144 (120/208VAC) l 4144 LOCATION: TURB BLDG 715' EAST WALL 23/24 BUS ROOM ! 4144 SOURCE: UPS PANEL 414 CKT 4 122 INVERTER ROOM - SERV BLDG l 4144

REFERENCE:

NF-74564-3 t 4144 1 RMU 252 - 23/24 BUS ROOM l 4144 3 RMU 251 - /24 BUS ROOM 4144 6 TSC UNIT 2 PPCS/ERFCS PERIPHERALS (2) ! RECEPTS

              **  4145 4145 PANEL:       4145      (120/208VAC) f     >   ",

e t

     ,     ,. o
       -        Pcge No.      7 10/20/86 ERCS POWER SOURCES FROM PANELS PANEL BKR NO     DESCRIPTION 4145   LOCATION: AUX BLDG 735' EAST WALL UNIT 2 ROD DRIVE ROOM 4145  SOURCE:    UPS PANEL 414 CKT 5   122 INVRTER ROOM -

V BLDG 4145

REFERENCE:

NF-74564-4 4145 1 RMU 241 - WEST OF MCC 2K1 4145 2 RMU 253 - UNIT 2 ROD DRIVE ROOM 4145 3 RMU 242 - WEST OF MCC 2K1 4145 5 RMU 254 - UNIT 2 ROD DRIVE ROOM l l l l t l t

     "' To
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    -o-        Page No. 1 10/20/86 ERCS POWER SOURCES FROM PANELS SORTED BY DESCRIPTION PNL-CKT  DESCRIPTION 3141-19  COMMUNICATICN CAB RDA115 RECEPT 3131-6   COMMUNICATIONS CAB RDA115 RECEPT 3133-3   CONTROL ROOM CONSOLE 1E/P138 RECEPT 3143-3   CONTROL ROOM CONSOLE 1E/P138 RECEPT 4143-3   CONTROL ROOM CONSOLE 2E/P138 RECEPT 3133-14  CONTROL ROOM CONTROL BOARD B1 SPD iP07D RECEPT 3143-9   CONTROL ROOM CONTROL BOARD C1 CRT 1E02C & KEYPAD 1E06K 3143-11  CONTROL ROOM CONTROL BOARD El SPD 1P06D & KEYPAD 1P08K 4143-9   CONTROL ROOM CONTROL BRD E2 C CRT 2E02C & KEYPAD 2E06K 4143-1   CONTROL ROOM CONTROL BRD E2 SPD 2P06D & KEYPAD 2P08K RECEPT 3133-1   CONTROL ROOM PPCS ALARM CRT 1P01C RECEPT 4143-11  CONTROL ROOM PPCS OPER CKT #3 2P02C RECEPT 3143-1   CONTROL ROOM PPCS OPER CRT #3 1P02C RECEPT 3133-17  CONTROL ROOM RRDAC COLORGRAPHIC RDAA2C RECEPT 3131-7   ERFCS A CAB 1E121 RECEPT 3131-13  ERFCS A CAB 1E123 RECEPT 4131-1   ERFCS A CAB 2E121 RECEPT 4131-3   ERFCS A CAB 2E123 RECEPT 3132-12  ERFCS A DISC DRIVE 1E101 RECEPT 3132-14  ERFCS A DISC DRIVE 1E103 RECEPT 4132-12  ERFCS A DISC DRIVE 2E101 RECEPT 4132-14  ERFCS A DISC DRIVE 2E103 RECEPT 3141-13  ERFCS B CAD 1E122 RECEPT 3141-11  ERFCS B CAB 1E124 RECEPT 4141-5   ERFCS B CAB 2E122 RECEPT 4141-3   ERFCS B CAB 2E124 RECEPT 4142-6   ERFCS B DISC DRIVE 2E100 RECEPT 4142-12  ERFCS B DISC DRIVE 2E102 RECEPT 3131-14  ERFCS CPU A CAB 1E107 RECEPT 4131-2   ERFCS CPU A CAB 2E107 3132-10  ERFCS CPU A CONSOLE 1E51C RECEPT 4132-5   ERFCS CPU A CONSOLE 2Eb1C RECEPT 3141-14  ERFCS CPU B CAB 1E100 RECEPT 4141-1   ERFCS CPU B CAB 2E100 3141-15  ERFCS CPU B CONSOLE 1EbOC RECEPT 4142-5   ERFCS CPU B CONSOLE 2E50C RECEPT 3131-17  ERFCS/PPCS A/B AUX CAD 1E/P128 RECEPT i-              3141-20  ERFCS/PPCS A/B AUX CAB 1E/P128 RECEPT

4132-16 ERFCS/PPCS A/B AUX CAB 2E/P128 RECEPT

' 4142-14 ERFCS/PPCS A/B AUX CAB 2E/P128 RECEPT 3141-3 LA 120/KB RDA112 RECEPT l 3131-1 LA120 PRTR/KB RDA111 RECEPT

3132 4 MUX A DISC DRIVE iM101 RECEPT 4142-4 MUX B DISC DRIVE 2M100 RECEPT 3132-15 MUX CAB 1M109 RECEPT 4142-7 MUX CAB 2M106 RECEPT 4

4132-7 MUX CAB 2M109 RECEPT 3141-23 MUX CAB B CONSOLE 1M52C RECEPT l 3132-1 MUX CPU A CAB 1M107 (1M103) 4132-1 MUX CPU A CAB 2M107 l i

el, z,:f. go . Page No'. 2 10/20/86 ERCS POWER SOURCES FROM PANELS-SORTED BY DESCRIPTION PNL-CKT- DESCRIPTION 3132-22 MUX CPU A CONSOLE 1M51C RECEPT 4132-18 MUX CPU A CONSOLE 2M51C RECEPT 4142-1 MUX CPU B. CAB 2M108 (2M102)

             -4142-25   MUX CPU B CONSOLE 2M52C RECEPT 4132-4    MUX DISC DRIVE 2M101 RECEPT 3141-4    MUX ERFCS PROGR PRTR/PLTR IM60P.1E60P RECEPT 4132-2'   MUX PRT 2M61P RECEPT 3132-5    MUX PTR IM61P RECEPT 3133-7    P250 COMPUTER ROOM ERFCS/PPCS AUX CAB 1E/P125 RECEPT 3143-5    P250 COMPUTER ROOM ERFCS/PPCS AUX CAB 1E/P126 RECEPT 4143-5    P250 CONTROL ROOM ERFCS/PPCS AUX CAB 2E/P126 RECEPT 3131-4    PLANT F.O. CAB RDA113 RECEPT 3141-17   PLANT F.O. CAB RDA113 RECEPT 3131-12   PLANT MODEM CAB RDA114 RECEPT 3141-16   PLANT MODEM CAB RDA114 RECEPT 3132-6    PPCS A CAB 1P121 RECEPT 3132-0    PPCS A CAB 1P123 RECEPT 4132-6    PPCS A CAB 2P121 RECEPT 4132-8    PPCS A CAB 2P123 RECEPT 0132-10   PPCS A DISC DRIVE 1P101 RECEPT 3132-9    PPCS A DISC DRIVE 1P103 RECEPT 3132-13   PPCS A DISC DRIVE 1P105 RECEPT 4132-10   PPCS A DISC DRIVE 2P101 RECEPT j              4132-9~   PPCS A-DISC DRIVE'2P103 RECEPT

! 4132-13 PPCS A DISC DRIVE 2P105 RECEPT

4142-16 PPCS B CAB 2P122 RECEPT i 4142-21 PPCS B CAB 2P124 RECEPT i

4142-8 PPCS B DISC DRIVE 2P100 RECEPT 4142-9 PPCS B DISC DRIVE 2P102 RECEPT { 4142-13 PPCS B DISC DRIVE 2P104 RECEPT i 3132-3 PPCS CPU A CAB 1P107 i 4132-3 PPCS CPU A CAB 2P107 3 3132-21 PPCS CPU A CONSOLE 1PSIC RECEPT 1 4132-20 PPCS CPU A CONSOLE 2P51C RECEPT i 4142-3 PPCS CPU B CAB 2P106 3141-21 PPCS CPU B CONGOLE 1P50C RECEPT 4142-20 PPCS CPU B CONSOLE 2P500 RECEPT i 3141-6 PPCS PROGR PRTR/PLTR 1PCOP RECEPT i 4142-23 PPCS PRT/ PLT 2P00P RECEPT j 4142-11 PROGR PRTR/PLTR'S 2E60P 2M60P RECEPT 3132-23 PROGRAMMER AREA WORK STATION 81 RECEPT l 3132-20 PROGRAMMER AREA WORK GTATION #14 RECEPT f 3141-26 PROGRAMMER AREA WORK STATION n7 RECEPT 3141-25 PROGRAMMER AREA WORK STATION #8 RECEPT l, 4142-28 PROGRAMMER AREA WORK GTATION #9 RECEPT I 4131-7 PROGRAMMER WORK AREA STATION nS RECEPT l 4132-21 PROGRAMMER WORK STATION #3 RECEPT i 3141-9 RA81 DISC DRIVE B RDA110 RECEPT I 3131-11 RA81 DISC DRIVE DA109 RECEPT 3131-3 RM03 DISC DRIVE A RDA105 RECEPT l 29-t

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10/20/86 ERCS POWER SOURCES FROM pat 4ELS SORTED BY DESCRIPTION PNL-CKT DESCRIPTION 3131-5 RM03 DISC' DRIVE A/B RDA107 RECEPT 3141-1 RM03 DISC DRIVE B RDA104 RECEPT 3141-5 RM03 DISC DRIVE B/A RDA106 RECEPT 3131-9 RM03 DISC DRIVE C RDA108 RECEPT 3133-2 RMU 125 MISC RACK 11 - 3143-2 RMU 125 - MISC RACK 11 3133-4 RMU 126 - U1 INCORE T/C RACK 3143-4 RMU 126 - UNIT 1 INCORE T/C RACK 3133-6 RMU 131 - P250 COMPUTER ROOM - 3143-6 RMU 131 - P250 COMPUTER ROOM 3133-8 RMU 132 - P250 COMPUTER ROOM 3143-8 RMU 132 - P250 COMPUTER ROOM 3133-10 RMU 133 - P250 COMPUTER ROCM 3143-10 RMU 133 - P250 COMPUTER ROOM 3145-1 RMU~141 - NORTH OF AUX BLDG OPERATING ROOM 3135-1 RMU 141 - NORTH OF AUX, BLDG. OPERATOR ROOM 3135-3 RMU 142 - 140RTH OF AUX DLDG OPERATOR ROOM 3145-3 RMU 142 - NORTH OF AUX BLDG OPERATOR ROOM 3134-3 RMU 151 - 13/14 BUS ROOM 3144-3 RMU 151 - 13/14 BUS ROOM-3134-1 RMU 152 - 13/14 BUS ROOM 3144-9 RMU 152 - 12/14 BUS ROOM 3135-2 RMU 153. - U1 ROD DRIVE ROOM 3145-2 RMU 153'- UNIT 1 ROD. DRIVE ROOOM 3135-5 RMU 154 - U1 ROD DRIVE ROOM 3145-5 RMU 154 - UNIT 1 ROD DRIVE ROOM 4143-2 RMU 225 - MISC RACK 21 4143-4 RMU 226 - UNIT 2 INCORE T/C RACK 4143-6 RMU 231 - P250 COMPUTER ROOM 4143-8 RMU 232 - P250 COMPUTER ROOM 4143-10 RMU 233 - 50 COMPUTER ROUM 4135-1 RMU 241 - WEST OF MCC 2K1 4145-1 RMU 241 - WEST OF MCC 2K1 4135-3 RMU 242 - WEST 0F MCC 2K1 4145-3 RMU 242 - WEST OF MCC 2K1 4144-3 RMU 2b1 - /24 BU,3 ROOM 4134-3 RMU 251 23/24 DUS ROOM 4134-5 RMU 252 23/24 BUS ROOM 4144-1 RMU 252 - 23/24 BUS ROOM 4135-2 RMU 253 - U2 ROD DRIVE ROOM 4145-2 RMU 253 - UNIT 2 ROD DRIVE ROOM 4135-5 RMU 254 - U2 ROD DRIVE ROOM 4145-5 RMU 254 - UNIT 2 ROD DRIVE ROOM 3135-4 RRDAC COUNT RM MCA RDAE7A RECEPT 3131-22 RRDAC CPU CRT A RDAA6C 3133-15 SHIFT SUPERVISOR CRT 1E/P05C RECEPT 4132-30 GPAC 3136-6 GPARE 85Y565 AREA RAD MON RACK 1RM3 4135-4 SPARE 86YS65 AREA RAD MON RACK 2RM3 4131-25 SPERRY CONSOLE PRINTER l

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 'o' Page No. 4 10/20/86 ERCS POWER SOURCES FROM PAllEL3 SORTED BY DESCRIPT10ti FNL-CKT   DESCRIPTIOtl 4131-21  SPERRY CO!1 SOLE TERMINAL 4131-16   SPERRY CPU 4131-23   SPERRY DIAGNOSTIC PROCESSOR 4131-31   GPERRY DISC CONTROL UNIT A 4131-22   SPERRY DISC CONTROL UNIT B 4131-29   GPERRY DISTR COMM PROCESSOR 4131-18   SPERRY DISTR COMM PROCEGSOR COtiSOLE 4131-20   SPERRY LINE PRINTER 4131-27   GPERRY MODEMS 4131-24   SPERRY TAPE cot 1 TROL UNIT 3141-2   T311 MAG TAPE RDA102 RECEPT 3131-2    TS11 MAG TAPE RDA103 RECEPT 3144-7    TSC RRDAC COLORGR RDAAOC & RRDAC PRIt1TER RDAA1P RECEPT 3134-0    TGC UNIT 1 PPCS/ERFCS PERIPUERALG, (2) RECEPT 3 3144-6   TGC UNIT 1 PPCS/ERFCG PERIPHERALG. (2) RECEPTG 4144-0    TSC UNIT 2 PPCS/ERFCS PERIPHERALS (2) RECEPTG 4134-1    TSC UNIT 2 PPCS/ERFCS PERIPHERALG. (2) RECEPT 3 3141-10   VAX 11/750 - CPU B RDA100 RECEPT 3131-8   VAX 11/750 CPU A RDA101 RECEPT
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