• 8756037 ENVIRONMENTAL ALLOWANCE MODIFIER <EAMl ANALOG A DEVICE WHICH Plf:"ITS AN ANt:.LOG SIGNAL 5. FOR THIS SET OF iJRAWINGS All SWIT0£S, PUSHBUTTtNS,, MN.NCIATOffS, At<<> INDICATORS (EXCEPT FOO 'l-E<l)H.E.S. PFD::ESS STANDARDIZED NUCLEAR UNIT POWER OUTPUT TO PASS IN AN ISOLATED c,n~!..11 I :F THE CCN SYSTEMS INDICATORS, ~TRa.l.ERS. AND MAI-IJAL-AlJTO STATllki) IIHICJl ARE KIMTEO 01 THE MAIN CCNTRCL BOAAO ARE PLANT SYSTEM PROJECTS TROI.. LOGIC INPUT EXISTS. Slffl.lED BY Ollt~S-iN ADOITl()j TO Tl£ A8CVE, SCOPE PY OnERS IS ALSO INDICATED ulRECTLY ~ SHEETS l'IITHIN THIS UNIT: SCP S,O,: 300 DRAWING ND, REV.

SET.- STATUS: TURNED OVER TO UE SPIN: AASFED 7250D64-S001 014

.:>.-1..... ' __,,,,,... ~? - estlnghousa Eler.:rlc

,0 ' - Corporation i'W A I * :shi ou.*-r7. -11 *~ Cn-*......,,.. TITI... NUCUAR O,EIICIY SYS1UIS., PfrTSlu*cw. PA., "* S. A.,_ :c,

,_. n fl,,,£!,.

• II 97 ~ SM.PPS t'IIJECTS

!1 :!~ IOII *o.-........ -. AK:TIGiAL DIAGRAM 1 ll<<JEX AKI sYMID.S. -..........

1* 11..,-. --. *. *=* - AIJ"'*... J*;ti....... 725006,q

.tii:

!: "i

• ll i I I ICAl.lr *

• I I I

• O * *

• I * *

• APf'. _.. 111-,,-..- - I II :1 *-".. *. DIIOII,.._ IN n*c**

• *..-.e. auPV. til -" I.:i.::~. -~ ~.. *- *~ tll"I...,.,,,..,.

"' "' DONOTSCALS,

11 I 10 J 9 l !S I 4 3 2. I t +/-:3:311S REV. DATE 6 111303 t,,988Stt ROD ORJVE SUPPLY CHE LINE DIAGRAM DRAWN CHKD

• MAL EWM TWS 1 SUPV.

....... 200 V AC BUS REFLECTS co-- G TURNOVER TO UE. PARTIALLY G TRAiN A REACTOR SHUNT TR IP SIGNALS M-G SET REDRAWN FOR ) 52/RTB ) 52/BYB CLARITY.

MANUAL REACTOR TRIP SIGNAL (SHEET 3J ' -

MANUAL SAFETY INJECTION SIGNAL (SHEET 8 ) G (NOTE 4 ),, 0-.......

~ REACTOR TRIP M-G SET SWITCHGEAR lCGC lRAIN A REACTOR i RIP SIGNALS e 52/RTA ) 52/BYA ROD DRIVE POWER SUPPLY l MANUAL TRIP SIGNAL (SHEET 3) *

~ SOURCE RANGE, HIGH FLUX ( INTERLOCKED BY P-6 & P-10) ROD DRIVE POWER BUS INTERMEDIATE RANGE, HIGH FLUX (INTERLOCKED BY P-10) ( NOTE 1 I

<(

NEUTRON FLUX TRIP SIGNALS (SHEET 31 z NT ( INTERLOCKED BY P-10)

F {HIGH FLUX, LOW SETPO I POWER RANGE HIGH FLUX, HIGH SETPOINT -

<( -

... f--- 0:: HIGH FLUX RATE 0:: -

~ OVERTEMPERATURE 6T u - f--- <{ [L LOGIC TRAIN A - (/) 0:: -:r: f---

(.'.) 0::

OVERPOWER 6 T 0 - '- f---

__J [L <( N fc7 PRIMARY COOLANT SYSTEM {LOW REACTOR COOLANT FLOW IN ANY 1 OF 4 LOOPS ( INTERLOCKED BY P-8 t.OW PRIMARY - 0::._J I 0:: f---- LO

<( OPEN

• TRIP SIGNALS (SHEET 5).. f--- '-' COOLANT FLOW f--- P-4 LOW REACTOR COOLANT FLOW IN ANY 2 OF 4 LOOPS ( INTERLOCKED BY P-7 I - 0:: TO S. I.

UNDERVOLTAGE (INTERLOCKED BY P-7 l - "' :J (NOTES 1 & 2) N BLOCK LOGIC > '-

[L

- - lD

.. f---UNDERFREOUENCY ( INTERLOCKED BY P-7 l lD 0:: N - [0-. (SHEET 81 HIGH PRESSURE ( NOTE 4 l PRESSURIZER TRIP SIGNALS []_ rn [L OPEN ( LOW PRESSURE ( INTERLOCKED BY P-7)

(SHEET 61 - >- -HIGH LEVEL ( INTERLOCKED BY P-7 l 0:: rn 0:: [l) I\\

f--- ' f--- >- CLOSED TO FEEDWATER E { - - [l) A cs: STEAM GENERATOR TRIP SIGNALS > '- 1 ISOLATION LOGIC (SHEET 7 & 19) LOW-LOW STEAM GENERATOR WATER LEVEL -:J N (SHEET 13 I

lf) CONNECTED N [L A SAFETY INJECTION SIGNAL (SHEET MANUAL SIGNAL r-f--- (1] -8 i{ AUTOMATIC SIGNAL lD - -0:: 0:: [L r-'\\ :r: >- 0::

(/) (1] f--- REACTOR TRIP SIGNAL FOR TURBINE TRIP SIGNAL (SHEET 16) N TURBINE TRIP (SHEET 16) ( ~ V LOW TRIP FLUID PRESSURE OR ALL STOP VALVES CLOSED ( INTERLOCKED BY P-9) - '-

LO SOLID STATE PROTECTION SYSTEM TO STEAM DUMP CONTROL ( GENERAL WARNING ALARM IN BOTH TRAINS -

LOGIC (SHEET 10)

.l

• TRAIN :J TO SOLID STATE LOGIC

- GENERAL WARNING ALARM PROTECTION SYSTEM

- T TRAIN LOGIC LOGIC TRAIN 8 REACTOR TRIP SIGNALS. TO STEAM DUMP CONTROL D I I [L l LOGIC (SHEET 10) 0:: -

MANUAL TRIP SIGNAL (SHEET 3) (\\ f--- 0:: TO S. I. (,. :r: >- [L BLOCK LOGIC ( r- <(

SOURCE RANGE, HIGH FLUX ( INTERLOCKED BY P-6 & P-10) _J (/) [l) -*--.. - ' SHEET 8 l 0::

INTERMEDIATE RANGE, HIGH FLUX ( INTERLOCKED BY P-10) - >- 111 A - N f--- CONNECTED o._ <(

I ( HIGH FLUX, LOW SETPOINT ( INTERLOCKED BY P-10) 0:: m <(

NEUTRON FLUX TRIP SIGNALS [l) r- '- >- CLOSED (SHEET 3) - (1] A POWER RANGE HIGH FLUX, HIGH SETPOINT z > '- A - ::J [L N TO FEEDWATER ISOLATION lf) OPEN L.!.S1 LOGIC (SHEET 1

...... 0:: N 0:: HIGH FLUX RATE <( - -3 I

'OVERTEMPERATURE 6T r-lf) f---u (NOTE 4 )

OVERPOWER 6 T -(.'.) &

PRIMARY COOLANT SYSTEM LOW PRIMARY { LOW REACTOR COOLANT FLOW IN ANY 1 OF 4 LOOPS ( INTERLOCKED BY P-8) __J - f--- -0 [L [l] ( NOTES 1 & 2 ) [L TRIP SIGNALS (SHEET 5l -COOLANT FLOW f--- f---LOW REACTOR COOLANT FLOW IN ANY 2 OF 4 LOOPS ( INTERLOCKED BY P-7), ' ' f--- OPEN TURBINE TRIP (SHEET 1 6 ) 0:: 0:: 0:: [l) REACTOR TRIP SIGNAL FOR C UNDERVOLTAGE ( INTERLOCKED BY P-7 l'Jr,-,' * - 0:: :J N > '- @] P-4

... l[) - -UNDERFREOUENCY ( INTERLOCKED BY P-7l -. lD N [L HIGH PRESSURE f--- f--- (1] -0:: 0:: [L PRESSURIZER TRIP SIGNALS :r: f--- 0:: (SHEET 6) - '-LOW PRESSURE ( INTERLOCKED BY P-7) (/) 0:: f--- LOGIC TRAIN B

{ HIGH LEVEL ( INTERLOCKED BY P-7) N LO STEAM GENERATOR TRIP SIGNALS (SHEET 7 & 19) WATER LEVEL

( LOW-LOW STEAM GENERATOR SAFETY INJECTION SIGNAL (SHEET 8 ) MANUAL SIGNAL NOTES: 'AUTOMATIC SIGNAL

TURBINE TRIP SIGNAL (SHEET 16) LOW TRIP FLUID PRESSURE OR ALL STOP VALVES CLOSED ( INTERLOCKED BY P-9) 1 ". TRIPPING THE REACTOR TRIP BREAKERS 52/RTA AND 52/RTB REDUNDANTLY DE-ENERGIZES THE ROD DRIVES. ALL FULL LENGTH CONTROL RODS AND SOLID STATE PROTECTION SYSTEM ~ SHUTDOWN RODS ARE THEREBY RELEASED FOR GRAVITY INSERTION INTO THE REACTOR CORE. I GENERAL WARNING ALARM IN BOTH TRAINS

• 2. NORMAL REACTOR OPERATION JS TO BE WITH REACTOR TRIP BREAKERS 52/RTA AND 52/RTB IN SERVICE AND BY-PASS BREAKERS 52/BYA AND 52/BYB B WITHDRAWN.

TRAIN B PEACTOR SHUNT TR IP SIGNALS DURING TEST, ONE BY-PASS BREAKER IS TO BE PUT IN SERVICE AND THEN THE RESPECTIVE REACTOR TRIP BREAKER IS OPERATED USING A SIMULATED REACTOR TRIP SIGNAL IN THE TRAIN UNDER TEST. THE REACTOR WILL NOT BE TRIPPED BY THE SIMULATED SIGNAL SINCE THE BY-PASS BREAKER JS

- CONTROLLED FROM THE OTHER TRAIN. ONLY ONE REACTOR TRIP BREAKER IS TO BE TESTED AT A TIME.

MANUAL REACTOR TRIP SIGNAL (SHEET 3) ' ' 3. ALL CIRCUITS ON THIS SHEET ARE NOT REDUNDANT BECAUSE BOTH TRAINS ARE SHOWN.

MANUAL SAFETY INJECTION SIGNAL (SHEET 8 ) i..J 4. OPEN/CLOSED INDICATION FOR EACH TRIP BREAKER AND EACH BYPASS BREAKER IN CONTROL ROOM.

5. DELETED.

DRAW I NG NO. REV.

7250D64-S002 006

.....;-.... --. - ~~...... ~ ' I.. QCM"O ~ ~ ~u~ / Yt~}~~~;;s~~_!!:f T ~. " :-~ I A,( -!-\\f '-

• i!?'-' x' ~~.... - tl ::-..:: ~, *-- 0 "-i ' r-c.... - *.. i ~ ~ ~ lJ) ~ ~ ~ ~,,v... S~'P.o~a,tl~n @

tO - SNU'12S tl:'.V>._ II:!

• 0 "'ft.I - if~~ u' ~ *, -, l<S ~ OE.. {N"'- / PROJEt I s 0 0.ow.._ w ~ "< ---.. lf1 ii.,-!.) IJJ 1,,.,,..., ~ *'"G f""'t........../ - u,Qiu !JO! 1 ;i:--.,...i..., ~1~ FIJI.CT l OIIAL O I ilGfUM

..,, w l"1 - PLANT SYSTEM PROJECTS REACTOR TRIP SIGNALS 0 0 IT\\ ~ ~;!; ~rt' J ON -., ()...-~. STANDARDIZED NUCLEAR UNIT POWER...,.. "'.c.,e, X'

I Q ~ I Ct) r'1 2 jae : -,......., rO I"),( :.

l. 0 0.. I w t.W :,e:; I,:'\\\\, ~. ' r-z t,- ft. Ill uJ -, ' UNIT: SCP s. o. : 300 *- / ' 12sooc;1 l.. ;.... -!.; f ~ ~ t i Z, V a< z t,u a_7:IQ - fi 0.%,_.. - % *..., ~

• I,1/4... '<:::: STATUS: TURNED DVER TO UE *--./ '

n1;; IJl.. J,., w VJ lU.. *-/ ' -- ~ - v ::r.==-... ~- d,.~ - - Zu a!:~ ~ 4 ~ ~ I] ~ 'i ~ !:..:. _\\-- ~ ~ SPIN: AASFED.. ~ w:A4C

-ill fl! ""' ;z~~ld \\JIO \\ ~ a... o... -,."S,,o,_,s. -..-.c:...,., *~ I C Q.... ~ * - / °' W'°". I. ---- - -......... so*-1-K& z

• CO,WOT '5C,Al.,f;'

I I 1 ff 10 ti a I 7 s 5 4 3 2 REV. DATE DRAWN l7900SZL 3 073097 RL W CHKD. SUPV. APPD.

DLBr-AMR N/ A REFLECTS TURN SOURCE RANGE REACTOR TRIP INTERMEDIATE RANGE REACTOR TRIP POWER RANGE REACTOR TRIP POWER RANGE HIGH NEUTRON FLUX RATE REACTOR TRIP OVER TO U.E. INCORP.

CMP 89-1049, TRIP BYPASS TRIP BYPASS TRIP BYPASS TRIP BYPASS RFR-17955A, 1/N 318 I I NC 1/N 32B 1/N 35A NC I I NC 1/N 35A I I NC I I I NC IV (N!S RACKI 32D~ (NIS RACK) (NI S RACK l 35F~ 35F~ ( fj IS RACK l 42Pu-43P POWER RANGE I J BLOCK CONTROL I I I I NOTES 1 & 4 I I ' I C I I 1 r I I BLOCK I 1 I ' I MOMENTARY *

,s ',s,s

1 +1S ~ 1 +1S 1 +1S I I I I I I I 1 I t I I p I /N 4 1 MANUAL I K I 1/N 42K MANUAL I 1/N 43K MANUAL I [/N 44K I SOURCE RANGE INTERMEDIATE RANGE P-10 RESET 1-----. RESET I RESET l MANUAL I RESET BLOCK CONTROL (NOTES1&2l TO BYPASS BLOCK CONTROL TO BYPASS (SHEET 41 (NOTE SJ(~ ( NOTE 5 I (~ -----. ( NOTE 5 l (1 -----. 51 (1 -----

]. R. ROD STOP ( NOTES 1 & 3 l I. R, ROD STOP I (SHEET4! (SHEET41 'f RESET BLOCK BLOCK I I NC I I I,,,,,,.-,.. NC iv,-,

MOMENTARY MOMENTARY MOMENT ARY NC 43U 41U ~2U

--- :..r P-5 P-10 I SHEET 4 I <SHEET41,-

(NOTE 7 I -....,-

r ____... J

' I NOTE 5 I I..._,....., P-10 !SHEET 4 !

I I l f NOTE 9 NOTE 9 NOTE 9 ~IOTE 9 NC I I NC I I I NC 41R::r 42RT 43R~ 3 3 3 I I

!NOTE 51 ~ (NOTE 5) 2 2

~ SOURCE RANGE DE-ENERGIZE p

I NOTE 7 l l H. V. I NOTE 8 I !NOTE 7 )

3 3 3 3 1 MANUAL TRIP (MAIN CONTROL BOARDJ

~ RESET TRIP TRIP

---1 MOMENTARY MOMENT ARY MOMENT ARY

SOURCE RAtlGE ENERGIZE TO BLOCK H.V. (NOTE 81 I.R.RODSTOP (SHEET 41

HIGH NEUTRON FLUX HIGH NEUTRON FLUX HIGH NEUTRON FLUX HIGH NEUTRON FLUX I I RESET REACTOR TRIP HIGH NEUTRON REACTOR TRIP REACTOR TRIP ILOW SETPOINTI !HIGH SETPOINTI I REACTOR TRIPJ. !SHEET 2l FLUX RATE

!SHEET 21 (SHEET 2 I REACTOR TRIP REACTOR TRIP REACTOR TRIP (SHEET 21

!SHEET 2l (SHEET 21

--""' NOT REDUNDANT

1i NOTES:

1

• THE REDUNDANT MANUAL BLOCK CONTROLS CONSIST OF TWO CONTROLS ON THE CONTROL BOARD FOR EACH RANGE, ONE FOR EACH TRAIN.

2. l/N 33A IS IN LOGIC TRAIN A.

1/N 33B IS IN LOGIC TRAIN B.

3. l/N 38A IS I N LOGIC TRAIN A.

1/N 38B IS I N LOGIC TRAIN B,

4. 1/N 47B IS I N LOGIC TRAIN B. 1/N 47A I S I N LOGIC TRAIN A.

5. TWO COMPUTER INPUTS ARE CONNECTED TO THIS CIRCUIT, INDIVIDUAL FOR EACH TRAIN.

6, MANUAL RESET CONTROLS CONSIST OF FOUR MOMENTARY CONTROLS IN THE CONTROL ROOM, ONE CONTROL FOR EACH INSTRUMENT CHANNEL.

7. TWO PERMISSIVE STATUS LIGHTS ARE CONNECTED TO THIS CIRCUIT, INDIVIDUAL FOR EACH TRAIN.

• nree.,.,. If iNiW. "- L. 04 JIii.. """

8. EACH SOURCE RANGE FLUX DETECTOR IS ENERGIZED AND DI-ENERGIZED BY LOGIC OUTPUT FROM A SINGLE TRAIN. THE TWO SOURCE RANGE FLUX DETECTORS IN-31 AND N-321 ARE STANDARDIZED NUCLEAR UNIT POWER PLANT SYSTEM PROJECTS SNUPPS PROJECT ON SEPARATE TRAINS. LJNJT: SCP SPJN: AASFED FUNCTIONAL DIAGRAM STATUS: TURNED OVER TO U.E NUCLEAR INSTR. & MANUAL TRIP SIGNALS

9. NEGATIVE RATE TRIP BISTABLES ARE ABANDONED IN PLACE AND CAN BE FOUND ON 3 DWG. 6079029, SHT. 4, S. 0. : 3 00 I TEM-9-1 O. ANY INSTRUMENT NUMBER WITH A FUNCTION CODE OF NC IS EQUIVALENT TO THE SAME ',;;;;;==============,;;===~ 1-------t SCALE

• NUMBER WITH A FUNCTION CODE OF NB. 7250064 S003 3 DO NOT SCALE DIMENSIONS IN INCHES

It I 10 7 I I I l Z: f I 1700S 17900SZL

G,-------- - - ------- - - -------- - - ------ - - ------- - - ------- - - --------,

I NC JI r,c. I Il I NC II NC m NC I NC I[ NC m NC 35D/1. 36D 1 41 L/ r-MAHJA.L 42L/r WJ,(JAL 43L~ MN<<.lli!. 41M~ 42M 43M

-..J ( OOTE 2) J NOT ~...J BYPASS _J a'tPASS BYPASS fm-! 1F! 91 OCK 1...~1C 1/M <!.9* JiM 498 1/H 49A (Si&.1 J) Fni.i,1 J IR S't?J.SS "" 3o;.

(SiEET J) rJ; REV. DATE DRAWN I I 5 111896 RLW I

• 1 1 I CHKD. SUPV. APPD

• I l¢J.f DJ B AMR N/ A

• 1 REFLECTS TURN

- OVER TO U.E, !NCORP.

(NOTE J) P-13 RFR-1 7193A.

F 1\\.RB 11 I )ofU..S£ REV. DATE DRAWN OWEER Pn£;SSURE 6 051397 RLW CHKD. SUPV. APPD.

(S£ET 16) DLB, AMR N/A DEC-1433. INCORP.

I ' REV, DATE DRAWN 7 073097 RL W I 1* CHKD. SUPV. APPD.

DLB, AMR N/A I I RFR-17965A. !NCORP.

REV. DA TE DRAWN 8 122099 RLW CHKD. SUPV. APPO, OJB AMR N/A MP 95-1008. !NCORP.

E C-1 --------.. c-2------...... ?-10 HIGH NEUTRON FLUX ROD STOP 8 OVERPOWER ROD STOP 8 BLOCK AUTOMATIC (NOT USEDl & MANUAL BLOCK AUTOMATIC (NOT USEDl & MANUAL <SHf'rr 3>

____.::::::::;:-ROD WITHDRAWAL CSHEE2...9l-.-:.::=:::. ____ _ - - ----- - - ------- - - ----------ROD WITHDRAWAL (SHEET 9l---

NOT Rfa.HOAHT JI HOT RE

SOURCE RAIJG£ 50URCE RAAlGE SOURCi=' RA>JGE:.

• A.IEUTROJJ FLU:lC MEOTROA> FLUX 1I Jif NC NC FLUX DOU BLJ AlG 1\\,1 -.3 J 1\\)-.32. 43N:..r 44N:..r 81.0CK COJJTROL FROM 1/N I I FROM 1/N 31A SR 2-1' TEST 32A SR 2-</>

D CNIS RACK) SOURCE. Fl.ANGE SllORC E RAMGE (N!S RACK) TEST FLUX' -DOUBLING FLUX - ooueLIN ALGO~ITHM.&.L&OAITHM l I

I POWER RANGE

C I NC ]I NC NC (9-IEEl' 5) P-8 41S ~ 42ST lII 43S ::.s-

NOTES:

LR J. iHE BYPASS SJ&lALS.\\JlE ~ IP BY 1E>>IS Cf' i1IO 11-fiEE-?OSITlc.H SlflTo-£:S <1-f A HIS RAO(. SWITCH 1/M 494 BYPASSES EITHER HC-,41L OR NC-4.31....s.flTDt l/lU9l3 BYPASSES E11HEH NC--421.. CR NC-444...

l. lHE 1110 f'-6 BIST.ABlES ID. NC-:350 H-IJ 1-C-.360.1a: "elERGl2FD TO ACTUATE" SUCH lHAT 4 l.CGIC I SJQW. IS OEF11'£0 TO EE PRESEHT l"IHEN Tl,£ 81ST.la..E ClJTM VO...T.\\GE: IS CH.

3. THE RcOUNOANT MANUA.L BLOCK CONTROi. Cet,1S:C-.TS OF,'NO COl'&TROLS ON Tl-IE' CONTROL SOARD, ONE rOR £AC" ;'RAIi,!, SIJl'PLIEIJ ::,y OTHERS 4, l.CV*ll2 D ~E ARC I~ PARAt...LEL FWN R\\THS,C:ACH VAi.VE l?fCE"lVe'S AN ACTUATION SIG-111/\\L FROM A. SE?ERATC: TRAIM. LCV*I 12 5 t C ARE iN SER1E5 IN Tll'E ~ME B FLOW p;.,.f1-1. EACH VALV£. Rc:C:'.IV£S A*.t ACTUATlb.N SlliAAL f?.OM A SB'ERATE *RAIN 5, ANY INSTRUMENT NUMBER WITH A FUNCTION CODE OF NC rs EQUIVALENT TO THE SAME NUMBER WITH A FUNCTION CODE OF NB.

2

P-9 OPE}J LCV-1120 A~D LCV-IIZE. {SHEET lo}

CLOS~ LCV-1128 AMO LCV* 112C (AIOTE 4)

1 wesr1ngn~1se flectr.r. Ccrporatf on,~..,.

JIUC.fM -..u,,.~ S1STDa, ~ I'll,, 11.x.\\-

Tm-Ill SNUPPS PROJECTS A STANDARDIZED NUCLEAR UNIT POWER FUNCTIONAL DI AGRAM PLANT SYSTEM PROJECTS I

~U-N-IT_:_S_C_P ____ ~SP~I-N:-A~As=F=E,---1 NUCLEAR INSTR. PERMISSIVES & BLOCKS STATUS: TURNED OVER TO U,E S. O.: 300 SECT. 9-1

~----------,-------, SCALE N. T. s. DRAWING NO, REV. 7250D6-4

~IMENSIONS IN INCHES SIIEET el 7250D6LJ SOOLJ 8 ! DO NOT SCALE I W~p.,.,,.,,...

11 I 10 8 I 7 I 4 3 1 nt.ACTffi Coa..ANT PUW BY I BY FROM SHEET 5A FROM SHEET 5A REACTffi COQANT PUMP U"lOERFREQUE!'(;Y OT!-IE~ N.E.S.

RCPA RCPB RCPC RCPD OVERTE1'1PERA TURE AT OVERPOWER LIT (LEAD/LAG C()olPENSfTEO) (LE:A0/1..AG eot,PENSATED)

LOOP I LOOP 2 LOOP 3 LOOP 4 LOOP 2 LOOP 3 Ilif;~f,~ ill m BY l OTHERS BY @N.ES. er Q A 3 3 3 4

REACTOR TRIP REACTOR IBIP

( 9--IEET 2) NOT REDl.tlDPNT (St-£ET 2)

BY! N.E.S. OVERTEMPERATURE Al FROM SHEET 5A OV£Rf'()l!Efl AT FROM SHEET BY OTHERS (LEAD/LAG COi-PENSATED) (LEAD/LAG C(M>ENSATED)

TRIP TRIP ~ LOO" 2 LOOP 3 LOOP 3

~;'" I BREAKER (NOTES 3 & 4) BREAKER RCPB BREAKER (NOTES 3 & 4) RCPC BREAKER I RCP~ I

REACTOR TR I ( SHEET 2 l REACTOR TRIP P (SHEET 2)

I I

LOI'¥ FLO!'( Lex)> I LOI'¥ FLOl'I LOOP 2 LOW FLOW LOY 3 LOW FLOW LOOP 4 5 5 5 6

(NOT USED)

C-3 C-4 TO ST ART TURS INE Rl.t,/BACK AND BLOCK AUTO-MATIC MID MANUAL ROD WITHDRAWAL (SHEEiS 9 & 16)

NOT REDUNDANT LO-LO TAVG FROM SHEET SA FROM SHEET LOW TAVG SA ffi LOOP 3

(~ GL 7_

II !I

P-7 P-12 TO FEEDWATER ISOLATI~

( SHEET 4) (SHEET 10) (9--IEET 13)

NOTES,

1. THE SETPOINT OF THE UNDERVOLTAGE RELAYS SHOULD BE ADJUSTABLE BETWEEN 60% AND 80% OF NOMINAL VOLTAGE. WITH THE ADJUSTABLE TIME DELAY SET TO ITS MINIMUM VALUE, THE UNDERVOLTAGE DETECTOR SHOULD HAVE A TIME RESPONSE OF LESS THAN 0. 2 SECOND. THE ADJUSTABLE DELAY SHOULD ALLOW AN ADDITIONAL INTENTIONAL DELAY BETWEEN 0 AND 1. 0 SECOND.

2. THE SETPOINT OF THE UNDER FREQUENCY RELAYS SHOULD BE ADJUSTABLE BETWEEN 54 Hz AND 60 Hz. WITH THE REACTOR TR IP REACTOR TR IP ADJUSTABLE TIME DELAY SET TO OTS MINIMUM VALUE, THE UNDERFREQUENCY DETECTOR HAS A TIME RESPONSE OF (SHEET 2) (SHEET 2) LESS THAN 0. 2 SECOND. THE ADJUSTABLE DELAY SHOULD ALLOW AN ADDITIONAL INTENTIONAL DELAY BETWEEN 0 TO 0. 5 SECOND

3. THE MAXIMUM ALLOWABLE RCP BREAKER TRIP TIME DELAY IS 0.1 SECOND.

4. REACTOR COOLANT PUMPS NUMBER A AND B ARE ON SWGR PA0l.

REACTOR COOLANT PUMPS NUMBER C AND D ARE ON SWGR PA02.

5. THE UNDERVOLTAGE SENSORS (POTENT TRANSFORMERS) ARE LOCATED ON THE MOTOR SIDE OF THE RCP CIRCUIT BREAKERS IN ADDITION TO SWGR UNDERVOLTAGE.

6. THE UNDERFREQUENCY SENSORS ARE LOCATED ON THE MOTOR SIDE OF THE RCP CIRCUIT BREAKERS

CALLAWAY PLANT FIGURE 7.2-1 FUNCTIONAL DIAGRAMS (PRIMARY COOLANT SYSTEM CONTINUED ON SHEET SA TRIP SIGNALS)

REV. 14 5/12 (SHEETS~

CL HL RTD R'I'D

R/E

T-AVG SUMMER DELTA-T SUMMER

LO-LOT-AVG LOW T-AVG P-12 FEEDWATER (SHEET 5) ISO (SHEET 5)

TURBINE TURBINE OTAT OPAT RUNBACK & RUNBACK & REACTOR REACTOR ROD BLOCK ROD BLOCK 'l'RIP TRIP C-3 C-4 (SHEET 5) (SHEET 5)

(SHEET 5) (SHEET 5) CALLAWAY PLANT NOTES:

1. Typical for Loop 1, Protection Set I. Other loops are FIGURE7.2-1 configured in the same manner, with the second digit in FUNCTIONAL DIAGRAMS the instrument circuit identification corresponding to (PRIMARY COOLANT SYSTEM the RCS loop. TRIP SIGNALS)

2. For further details of test points, computer inputs, REV 16 5/12 (SHEET 5A) indicators, annunciators, and control circuit interfaces, see drawing 8756D37 sheets 7-10.

CL HL HL HL RTD RTD RTO RTD

R/E R/E

T-HAVE SUMMER

T-AVG SUMMER DELTA-T SUMMER

OTAT SErrPOIWI1

LO-LOT-AVG LOW T-AVG OPAT P-12 FEEDWATER SETPOINT (SHEET 5) ISO (SHEET 5)

TURBINE TURBINE OTAT OP.oT RUNBACK & RUNBACK & REACTOR REACTOR ROD BLOCK ROD BLOCK TRIP TRIP REV. OL-15 C-3 C-4 (SHEET 5) (SHEET 5) 5106 (SHEErr 5) (SHEET 5) CALLAWAY PLANT NOTES:

1. Typical for Loop 1, Protection Set I. Other loops are FIGURE7.2-1 configured in the same manner, with the second digit in FUNCTIONAL DIAGRAMS the instrument circuit identification corresponding to (PRIMARY COOLANT SYSTEM the RCS loop. TRIP SIGNALS)

2. For further details of test points, computer inputs, (SHEET 5A}

indicators, annunciators, and control circuit interfaces, see drawing 8756037 sheets 7-10.

1 2 3 4 5 6 7 8

REV. DATE REV. *DATE DRAWN REV. DATE DRAWN 5 031403 5 051101 RLW 4 062200 MAL DRAWN CHKO. SUPV. CHKD. SUPV, APPO. CHKO. SUPV, APPO.

JHK MAL TWS MAL AMR NIA SKC AMR N/;\\

DEC-1871. MP 00-1005A TURNOVER TO !NCORP. INCORP. REFLECTS

lJ E.

PRESSURIZER LOW PRESSURE PRESSURIZER LOW PRESSURE (LEAD/LAG COMPENSATED) PRESSURIZER S. I.

D PRESSURIZER PRESSURE BLOCK CONTROL ( NOTE 1 ) D I "PB-, n ~ PB" m I' PB ]Y 'PB'.. -.....

I PB 456D 1 4 ~ 10* I !4~~al Ir 456B PB I 111,..PB')

455CL JI Il[ PB 457C 7-lY PB 458CL ~55D 7.... 1.... -, 7 ~J58D t_..... J ~57~ RESET BLOCK r - T MOMENTARY MOMENTARY

' C C w T f;:,., 2 T '~2 T ~2........ /A2 T,.. T fc1 T fcl T C

P-7 ( SHEET 4 J l

XI

• ACCUMULATOR ISOLATION OPEN ALL I VA~VES X

P:i--f-----*

REACTOR TRIP CSHEET 2)

P-1 I C PRESSURIZER HIGH PRESSURE I SHEET 7 I C PRESSURIZER HIGH PRESSURE (LEAD/LAG COMPENSATED) Ct--+- _______.,._ ______________ __.

I PB n ill PB I PB JI PB,, PB* (NOTE 2 l X 455.T 457A~ 455H 455H \\._ ~ 458H

.........,..Jr _J :I

!NOTE 3) 0-

SAFETY INJECTION (SHEET 8l NOTES:

REACTOR TRIP (SHEET 2l 6 1. THE REDUNDANT MANUAL BLOCK CONTROL CONSISTS OF TWO CONTROLS ON THE CONTROL BOARD; ONE FOR EACH TRAIN.

2. TWO COMPUTER INPUTS ARE CONNECTED TO THIS CIRCUIT; INDIVIDUAL FOR EACH TRAP~.

PRESSURIZER HIGH WATER LEVEL B I 459'T I[ LB LB 460I 461~ LB 3. TWO PERMISSIVE STATUS LIGHTS ARE CONNECTED TO THIS CIRCUIT; INDIVIDUAL FOR EACH TRAIN. B

PRESSURE RELIEF SIGNAL !SHEETS 17 AND 181

P-7 I SHEET 4 I

REACTOR TRIP (SHEET 2}

A REFERENCE DWG: A WESTINGHOUSE ELECTRIC CORP.

owe. No. M 744 00023

DRAWN !DATE) NIA CHKD. : DATE J FUNCTIONAL DIAGRAM l'J/A PRESSURIZER TRIP SIGNALS STANDARDIZED NUCLEAR UNIT POWER PLANT SYSTEM PROJECTS SUPV. (DATE!

UNIT: SCP SPIN: AAScED-0~ APP. : N/A STATUS: TURNED OVER TO U.E NIA DATE l LOCATION CALLAWAY PLANT SHOP ORDER: 300 UNION ELECTRIC COMPANY REV.

ST. LOU IS, MO. 7250D64-S006 6 1 2 3 4 5 6 7 8 L 133HS STEAM GENERATOR HI-HI LEVEL HIGH STEAM PRESSURE RATE (RATE-LAG COMPENSATED) STEAMLINE SI l7900SZL STEAM GENERATOR ONE STEAM GENERATOR TWO STEAM GENERATOR THREE BLOCK CONTROL ( NOTE 1 l

. B m: LB I LB I 1lI....--... m:~--.... II __...._ I.

A RESET BLOCK G MOMENTARY MOMENTARY!

j J

3/4.4

F

P-1~

• TURSlUE TRIP,'.M0 F:EOWAT!R ISOLATtOH LOW-LOW WATER LEVEL STEAM GENERATOR (5M~T 13)

... ----1_ :a; t

E

(NOTE. 4) (NOi~ 4) (NOTE 4)

C (NOTE. '2.) REV. DATE 6 111403 DRAWN CHKD. SUPV. MAL EWM TWS

REFLECTS TURNOVER TO D UE. PARTIAL ST~AM\\..\\i.tE \\':I0LAT\\O N REDRAWN FOR

(.S"N'Ei:.T 8) CLARITY.

\\ -I REV. DATE 7 092806 DRAWN CHKD. SUPV. RLW EWM TWS LOW STEAMLINE PRESSURE REISSUE THE (LEAD-LAG COMPENSATED) PREVIOUSLY VOIDED DWG. INCORPORTE AC 06-000149, LOOI? I RFR 200606779 I

N01"'eS C I. THE Rt::OU~D"-NT MA."MUA.\\. '6\\.0C.K CONT~O\\. C.ONS\\ ST S o-;:

TWO CONTROLS. ON T'ME C.ONT"ROI.. ao.i:..~o, O~E FO'?

i=AC:.1-1 TRA\\N. SUPPL.t~O '8,"'( ~Elia<:..

'2.. TWO C:.OMPUTER INPUTS AR'ci CONNE.C.TE.0 TOT\\41S Cl~CUIT !ND\\VIO\\.l,b,.L !=02 '=~C.~ TR~\\N.

"3-TWO PE~Ml<:.'51\\lii. ST~T\\J~ L.l<.1-rrs. (.11..gs: CO~N5c.TS.0

,-- TO ~IS. C\\~C\\J\\T. IN0\\'1\\0\\JA.L 'FO~ SA.CM Tli?AIN----

7 4. THIS LOGIC JS APPLICABLE TO WOLF CREEK ONLY. SEE SHEET 19 FOR THE CALLAWAY SPECIFIC STEAM GENERATOR LOW-LOW WATER LEVEL LOGIC.

1/2

B

Cl--.. c~....

DRAW I NG NO. REV.

. 7250064-S007 007 SAFETY INJECTION AND STEAMLINE ISOLATION (SHEET 8)

. ~ 5' I'() _, "",J.... *:a:;i:. - s :'.'! Coroaratf'ln

- "° r-.. r- >,t;! l(J... l...lJ -' '.,,:,, V * ~

A 2 1\\1 I

• I -..... !i: -.(11 ;I ') Qt ~l"t -

~., t"!,f

~ ' l" I.J,-.o,:'-"!I. 4. "f'

• r-i ' ofo - : 'So: - '), SMU PPS P~o.Je c-rs

() (0 w:l 4 * *~-.... ~ ~~ '3 orv FUNCTIONAL OIAGRA M

• ~ () -...,.a 1u. tu t'f 0 N 0 N Y} 0 111,; ![.~ ~} STANDARDIZED NUCLEAR UNIT POWER PLANT SYSTEM PROJECTS STEAM GcN~~~TOI\\' TRfF" SlSJ!iAi:.5 r:, 0 "1 lu.,,... - n it1..,,

l"l,- I '? ~ocz ~~-I :~~;~~1 - j

• UNIT:SCP S.0.:300 j

. Q D.. r~l- ~ n2 ~, ~ ' STATUS: TURNED DYER TO UE Q. """ z; 2; I() w i.w ofl UJ IJ. II SPIN: AASFED "..... *.. -tit.. *

• z u --=- -fr ~ Ul lu ~.... ct.>!J "'-* SHEET 7

"' fl *rt!,, - 11 r:IONC:rl"XN'! -

10

• 7 *, 3 2 8 7 6 5 4 3 2 I 800S v9009Zl a.EV. OAlE DRAWN 4 17-93.MAL

.o<<,o. RLW TJM N/A SUPV~ APPD~

REDRAWN FOR I CLARITY.

REFLECTS TURNOVER TO UE. INCORP.

RFR-13333A.

H

STEAM GENERATOR PRESSURIZER CONTAINMENT PRESSURE MANUAL ACTUATION FROM CONTROL BOARD

HIGH STEAi-i LOW PRESSURE.... LOW PRESSURIZER rr:1.,,....,,_ rI III II IV III II I Pa**~

I PRESSURE STEAMLINE PB ' ;.~P~s"**, PB*, PB*, PB* ". SAFETY CONTAINMENT CONTAINMENT CONTAINMENT

.RATIC: [SHEET 7) PRESSURE (SHEET I',) 935 935 934 935 936 937 INJECTION SPRAY SPRAY ISOLATION

!SHEET 7) A s A s t. A ACTUATION ACTUATION ACTUATION PHASE A

'B~ c~ s s * !TWO CONTROLS} !TWO CONTROLS) !TWO CONTROLS) !TWO CONTROLS) (NOTE I ) (NOTE 2) (NOTE 2) [NOTE I)

C 1--,_., QYPASS BYPASS BYPASS TEST TEST TEST (lYPASS TEST cl--*

,, "*. ' a ' lf jj' !l G uil '

~, 11) '

.:z; ffi

.0. :,: \\;::II 5

HJ*! 1/2 >-

I

. l 1---a>--,A, r* >--a--,. T,__._../A.

3 -*3

2--:,

MANUAL RESET p.4 ltJOTES 4,151,1/'!l "'/~ 4~...1 Hl-3 AND BLOCK [NOTE 6l REACTOR TRIP (SHEET 2}

F

... -[.p

30-120 CONTROL ROOM SUPPLY AIR RAD MONITORS SECONDS GKRT5 GKRT.4

( FOR LOGIC ) DETAILS, SEE J* 104*0017b

(NOTE 15) CONTAINMENT GTRT22 GTRT33 RAO MONITORS E

L

,--- MANUAL RESET

{NOTE Bl,. 'f,.

FEEOWATER ISOLATION REACTOR TRIP FEEDWATER PUMPS AUXILIARY FUEL BLOG.

!SHEET 13) !SHEET 2) (SHEET 1'3) VENT.

BY @ N.E.S. ISO IV

---+--- ------------------- - ---- -------BY OTHERS ------- CISA MANUAL MANUAL ACT - MANUAL STEAMLINE ISOLATION ACT

( TWO CONTROLS) {NOTE 14)

MANUAL MANUAL MANUAL \\

NOTES 8 II, 9 RESET NOTES 8 II, 9 RESET NOTES 8 II, 9 RESET D

MANUAL RESET MANUAL RESET

LOOP I LOOP 2 LOG;> 3 LOOP 4 R L ll L R L STEAMLINE MANUAL STEAML1NE MANUAL STE'.AML!NE MANUAL STEAMLINE'. MANUAL ISOLATION (NOTE 3) ISOLATION (NOTE 3J ISOLATION INOt£ 31 ISOLATION tNDfl': 31

_J

CONTAINMENT PURGE CONTROL ROOM VENTILATION

[NOTE 16) [NOTE 15) ISDLATIDJ~ ISOLATION (CPIS) IV (CRVISJ IV

I l>--fA ~

l __ ---- --- - l---

SEE NOTE 5 C CLOSE (NOTES 6 I,, I I J CLOSE (NOTES b 1,, Ill CLOSE (NOTES b & I I l CLOSE !NOTES 6 ~ II) {NOTE 131 (NOTE 13) !NOTE I 3)

LOOP I LOOP 2 ~ODP 3 LOOP 4 EMERGENCY SAFETY SERVICE WATER (PUMP START~ EMERGENCY CONTAINMENT CONTAINMENT CONTAINMENT STEAMLINE STOP STEAMLINE STOP STEAMLINE STOP STEAMLINE STOP DIESEL (PART B>. 1',1 J INJECT!~ SYSTEM ISOL. J FAN ACTUATION SPRAY :SOLATION ISOLATION

/ALVE VALVE VALVE VALVE START*UP (NOTE JO (N01 E 7) COOLERS (NOTES I& & 17) PHASE A PHASE B

( NOTE 12 j NOT FULL OPE:N !NOTE 121 !NCiTE E,J,,,. (NOTE {jj * [NOTE f,J

t~$\\~:~* li'.~i;~-:~~:/ ;.(:t~:~:.i&t +~t /r:_:_ 1~ " ' '

5 " a

~,. "',:'"'.. ;. 4

,:*:,,*~..>:;;,,.. --~--~'--"**--_',';"".,... >:t*,

,.,,.. *. ~-" :;,.,... *~, -~-,.,_,._,...... ~-~._;.,..,.........:.-,.,.,-. _,__ ~-..,.~- " ~-.,. ' ~:..--,.:;::. '

' *., "!"'.. ~ '."., *

• -_. ~- ' :,;..,..

.,.* ~-- '.\\:£

-y V

---,, '*-.a;{...

. ~ :;.

' f. --~,;;,,

NOTES; -. -~:tt~i'; _.;,,;

r, two MOMENT.ARY CONTROLS ON THE CONTROL BOARD, SAFETY iJ'JJEGTION SEQUENCE REQUIREMENTS ( IF SED!JENCING ts THE 2 out OF 4 t iNcibENCE, MEMORY, AND 'OR" LOGIC ARS.

UPEfiATiNG EiTHER CONTFl L WILL ACTUATE, NECESSARY) ARE SPECIFIED BY @ NUCLEAR ENERGY SYSTEMS, DUPLICATED WITHIJ'J EACH. TRAIN, SEPARATE OlJTPUi RELAYS ARE:

2,, THE MANUAL SPfiAY AcTUA'f1bN CONSISTS Of FOUR MOMENfAR\\i Also_ PROVIDED !N EACH TRAIN. TO MIN!MTZE FALSE CONTAINMENT CONTROLS, ACtUAT10N WILL OCCUR ONLY 1F TWO ASSOCIATED ALSO CLOSES THE BYPASS VALVE IN PARALLEL WITH THE AssocfATED SPRAY, ONE OUTPUi RELAY SHOULD StART THE PUMPS WHILE CONTROLS Allio OPERATE S!Ml.l[.TANEDUSLY, **. STEAM LINE STOP VALVE, ANOTHER SHOULD OPEN THE Sl'STEM VALVES*,

""3-Twn COf-JT QL_g 0~ \\!!-L-VE" -ON 11-£ CC'.WtDOl_ 8:Ci.AO{j'~ ONE° ~-0~' EACH TRAIN.* *r 'f:'i-: * -- 6t.IV'l~n ric BE --on\\i'fl"'lr::'r',: +~ TLC *r-n~ *--M, DriMO' cnD C'f',U i:::fc'"U 17,.THE CONTAINMENT SPRAY SYSTEM SHOULD BE jNDEPE:NDENT OF THE

~=Lf'TS.,_,......,,="'--= """"' P.~-*.;<,=.,_.,_,,..... ~J.,,,,,_ -..... LINE $TOP VALVE TO INOICATE WHEN THE VALVE IS FULLY CLOSED OR ITJ=?..,,,.,.~__,,.,,,.....,. ="'-"..,,,,=/.,,, - SAFt-rr 1NJt.77r1.UN Sr$"it.M; l.F fHE OJfutiiTi.U'l5 OF *Naft. f3

,f:. 4, J:ONTA:i:NMENT PRESSURR fiiSTABlES FOR SPFIAY ACi'i.JATION ARE.. FULLY OPEN, * *.APPLY, THE SEQUENCE INTERLOCK SHOULD BE SUCH THAT SPRAY

.*.. ENERGIZE to ACiUATE {OTHER BISTABLE$ ARE' ot*ENERG1ZE TO ACTUATE]', *.* WILL_START SAFETY INJECTION SIGNAL STATUS, _WITl:IIN Tf:JE REQUIRED TIMEc INDEF'E'NOENT OF THE' t 5. [NQlOSEO CiRCUITRY IS NOT PAllt OF THE: (~) N.j.s. SAFEGUARDS ¥stfM,..

• THE ACTUATION MAY.BE DELAYED ANO SEDlJENCED IF THE EMERGENCY DIESEL POWER CAPABIL1TY IS LESS THAN THE TOTAL LOAD WITH ALL

,;;... ~....,.:. ' SYSTEMS STARTING. THE TIME DELAY(Si, IF IJSED,. MAY NOT ~,.~ C,,-.-,,~_-..

' 6, GOMPONENT§ ARt ALL iNDi'IIDUALLY SEAlEb IN tLATCHEbj, SO THAT:LOSS E'.XCEED tHEe MAXIMUM STARTING TIME.REQUIREMENTS FOR EACH SYSTEM,, __.,... ' '. ;,.....

,OF THE AGTUATIDJ'J SiGNAL 1't1LL Nbt CAUSE THESE-'scoMPONENTS RETURN TO THE CONDITION l'iliiLD PRIOR TO THE ADVENT OF THE TO *,* '.... :;..: *c-*,d,.-- STANDARDIZED NUCLEAR UNiT POWER AC7fU.'.t!ON SIGNAL, (4, two CONtROLS ON THE cor-:tROL BDAlib, *-* ---<?:* PLANT SYSTEM PROJEC1$ {0,-,TE:J 7, SERVICE WATtR SYSTEM ISOLATION lS USED ONLY.IF REOUIRED's WILL ACTUATE. b0 ERAl!NG EITHER CONTROL ""'"" NIA

- FUNCTIONAL DIAGRAM iL THE flt:DJJNIJANt MANUAL, REstt CONSISTS OF ti/() M6MEITT ARY CONTROLS ON,,.fr,, SOME ENGINEERED SAFEGUARDS FUNCTIONS ARE NOT WITHIN THE toATEl I

' THE CONTROL BDARO, ONE: FOR EACH TRAIN,.. FUNC'f!ONAL DESIGN SCOPE OF@ NUCLEAR tNERGY,sYSl'EMS BUt -- NIA SAFEGUARDS bNL Y SHOW!, 011 lfl!S SHEET AS THE FUNC'f!ONS ARE BL/IL T 1"1 THE,_,_ (OATEJ 9, SI.IPPL1Ei5 Bi' OTHERS, SUPPLIED i::af.JiPMENT, N/A ACTUATION SIGNALS )

,. APPO, CDATE) l.~TlON CALLAWAY PLANT Cl.ASS,.

REV. DATE REV. DATE REV. DATE DRAWN 10 112013 9 032409 8 12209 RLW 600S DRAWN CHKD. SUPV. DRAWN CHKD. SUPV. CHKD. SUPV. APP.

INCORPORATE INCORPORATE RLW MAL LMP RLW EWM TWS DJB AMR N/A CR I NCORP.

MP 03-1002 CAR 09-000047; MP 95-1008.

C-5 OVERC-4 OVERC-3 HIGH FLUX HIGH FLUX C-2 C-1 FCN-10. CAR 200901818 TURBINE POWER LOW POWER TEMP ( 1 /4 l ( 1 /2 l POWER RANGE NEUTRON TURBINE IMPULSE T AVG T AVG BYPASS SELECTOR T AVG T AVG T AVG.t. T 6 T BYPASS SELECTOR.t. T.t.T.t.T G (TURBINE IMPULSE.t.T ( 2/4).t.T ( POWER I NTERMED !ATE FLUX CHANNELS CHAMBER PRESSURE LOOP 1 SWITCH ( CONTROL BOARD l LOOP 2 LOOP 3 LOOP 4 LOOP 1 SWITCH ( CONTROL BOARD l LOOP 2 LOOP 3 LOOP 4 CHAMBER PRESSURE) (SHEET 5) ( 2/4 ) (SHEET 5) RANGE) RANGE I I ---~----------- I I -------------~ I I

( SHEET 16 l ( SHEET 4 > < SHEET 4 > #1 #2 #3 #4 NEUTRAL ~1 6~s~ E1ci~s~ E1ci~s~ E16~s~ I I NEUTRA BYPASS BYPASS BYPASS BLYOPOAPSSLOOP 1 LOOP 2 LOOP 3 4 I I I

_J _J r-- --'--'--4 I I I I I I I I I I I I I

-- I r -',- - -l - -i I j : : I I I I I r--~ I I I I I I I I I I I 111 1 ------.i I I I I I L-~==::r:::==:::+==:::::;:------- ----. I I I I AUCTIONEER -- I I I I I I I I I I I IG 0-t t0 0-1 0-r-- _.... I I I ~ r I * ~ I I I I.., 1 I I I I I

,, 1, r I r- __...J I I L - - - - - - +- 7 r - __,LJ -r-___ __,J, 1 1 I --t '--1 ~-T -4 I I -~

I I " '? I. I I l I I, r---...J ~ :,---11 r.__, I ~ I I I I I I I I I I I I ____ LEpL1 I i.;;;L=........ ~__, ~ I B l B A/B 432 J/K I 411 I J/K 421 F'.:~O'NA,ER a'<PA.-=.<:a I u t t t t ltJ 11 ____. A/B 7 r 11 v.11.1...'.IE. 1...e.ve.L I r REF I I I I l.J I I LI coNTR.oL____ :J 1 1 1 1 A r--+ t---i A A I A 2 I A 'Z I A 2 A, I -* 4-( SHEET 14),.....~ I ( IL ( NOTE 5 l f < NOTE ~) I ------.. I < NOTE ~ l (NOTE ~ l J ( NOTE 5 l I ( NOTE 5 l ( NOTE 5 l ( NOTE 5 l I

_j I _______ L__ __ + I T AVG AUCTIONEER I -,..--- ------ L-------,-- ----.t.T AUCTIONEER ----- _______ J 10 Kar ------ I ' I I HIGH I HIGH (NOTE. 2 I - - - - * -- - - - - - - - - 7 : I I I : I 1 I I E :.._ - r-- -~- - i -- --t- - ~ --1 T - t - -.._ - ~ T - -...._ - - - - - - - - - - - - -- -*-- l - - - - - - -- -+ - - - - -* - _ _j

1 1 1 1 1+13 s I I L __ 7 r _ _ 1 I r

- - J - - - -- - - r - - -, - - r - -I -- - -- t - - - - - 7

- r----- ----r--------, ~-=-----:--___ J __ L_ __ J : T AVG AUCTIONEER LOW r-- - - - - -., ~ - -- - +- - -- - - - -- -- -1 I ri (NOTE 4l ! L - - - 'y;.,' TB TB I I - - - - - ---. ~ r~ rt-, ~ ~-~ rt-, [~1~7 ~~l I E/F C I T 412 412 I I I A ~]BIAS1/2 ~BIAS~~ -~BIAsY !BIAS r B 1.. '\\..11 / - 7r "j_._ ______ 7 I -

'-t-' I LJ __J I L _____ ')"'! I I I I I I I I I I I I

. A A I I I \\.::;:/ I + i I J.: ! I

• I I ~ 1 D I~~ I I ' I l+,"57\\!i l~5:,+J l~~*+J 6 J \\ _,,.. ( NOTE 3 l \\ r 6 t t 1' §----+---0 (NOTE 3) Y y y "'\\

DUMP CONTROL DUMP CONTROL LEVEL CONTROL I I, TO STEAM TO STEAM TO PRESSURIZER I I ROD CONTROL MANUAL ( SHEET 1 0 l ( SHEET 1 0 l ( SHEET 11 l I I USED NOT t

• I I MOMENTARY.,.._ RODS OUT ___ _ 1+TgS BANKO PO~\\T'IO~ -------- -- - - - ---!- -- - - -t- - - ----(-~.. -,

1 +"fi 0 s 8Al"4',( C: PO,al 'T,ot,t --------------t------1--- 1 I I 8.._NI< !I. P0i\\T\\QN - - - - - - - - -- - - - - - --l- - - -, I I I 8._l'IK A ?O'S.1T10M I I I I I FIXED MANUAL ROD SPEED I I I I I i MOMENTARY RODS IN I ~O &,:lTTOWI "!.IC.HAL L~J L9l r--~J I ft,,.~'i S:l.lLI.. 1,.iNCii'T~ ~

F~O"°" $!00 PCS\\'T'IOPi r - - r - - I +-- - 7 AUTO-MANUAL I NOi CA"TCll I....,..,..NI

r---0 l '-¥7 7 '-¥,,-7 r 7 '¥7 l,(N~ 5)1 L A(N ~ 5)1 L. A __J l(N~ 5)1 '-

RODS OUT ROD SPEED ANALOG & L~ l &4 ill 3 &.,,. ~ t~ ~ L~,.

IN RODS SIGNAL c:. - t""

':l"iOP TU!llS",Nlii \\..O.-..CINwa LOW 1..O*\\.0 lO'N LO*\\.O.. OW \\.O*LO FULL LENGTH CONTROL BANKS OE.FEAT QaMO"'I'& Ol~PA.TC;.1.INGi 8"'-1'\\X 8 81.~K C. B.\\N',< O l (~'141i£.T -)

• NOTES:

1, ALL CIRCUITS ON THIS SHEET ARE NOT REDUNDANT.

2, KOT MAY VARY INVERSELY PROPORTIONAL TO LOAD WITH A FIXED LIMIT OR MAY VARY IN TWO DISCRETE STEPS WITH BREAK POINTS AT 30 TO 50% AND 60 TO 80% TURBINE LOAD.

3, THE SUMMER OUTPUTS HAVE FIXED MANUALLY ADJUSTABLE UPPER LIMITS, 4, THE ROD DIRECTION BISTABLES NO. SB-412A AND SB-412B ARE "ENERGIZED TO ACTUATE".

5. ALARM 1, ALARM 2, ALARM 3, AND ALARM 4 MUST HAVE REFLASH CAPABILITY. STANDARDIZED NUCLEAR UNIT POWER PLANT SYSTEM PROJECTS UNIT: SCP S.O.: 300 TAB: 9-1 STATUS: TURNED OVER TO U.E.

NUCLEAR ENERGY DIVISION, PITTSBURGH, PA. U.S.A. Westinghouse Electric Corporation

TITLE SNUPPS PROJECTS ROD CONTROLS & ROD BLOCKS FUNCTIONAL DIAGRAM

SCALE N.T.S. 7250D64

DRAWING ND. REV. DIMENSIONING IN INCHES 7250D64 S009 10 DO NOT SCALE SUB 3 5 1 I *

• 7 I *

• a 01-133HS BY EY BY BT f"\\,.,.- ~ ~ ' ~ @ cmos STEAM LINE PRESSURE 1--.::"..;*..:".~'-J -,u, ~ O'ERS ___________ filJ_*w_.... ~_,,"0A~,N=T-N_,Es CONDENSER AVA1L~BLE SIGNALS TURBINE p.4 STEAM DUMP CONTROL STEAM N.E.S.

r, IMPULSE REAC.TOR TRIP T'Ul'BINE IMPULSE MODE SELECTOR SWITCH 1-iEACER STEAM DUMP INTERLOCK P-12 CONDENSER PRESSURE.SWITCHES CHAMBER (~HEEf 2.) CHAM3ER f'flESSURE PRESSURE,~----- ------- ------.A,.. d

• U1P I LOOP Z (NOTE 7) LIXf 3 SELECTOR SWITCH LO-LO PR.ES~IJRI! TRAIN A TRAIN B (N:ITE* 4)

(NOTE 3) T AVG SHELL 1 SHE'LL Z SHELL 3 l ! '

I,----"T"'"---,-----, (SHEET S) I OFF ON.._. r--s'tP4SS RESET T AVG I STEAM HEADER STEAM GENERATOR STEAM GENERATOR STEAM GENERATOR STEAM GENERATOR 63 6l '1.3 I STEAM PRESSURE ' PRESSURE PRESSURE PRESSURE PRESSURE I RESE:T I NTERLQCK I MOMENTARY :,RESSURE CONTROLLER CONTROLLER CONTROLLER CONTROLLER CONTROLLER T AVG BYPASS MOMENTARY 1. 1-1- ~ K11(1 + 1 ) K12(1+ 1 ) K12(1+ 1 ) K1?(1+ 1 \\) K12(1+ 1 )

\\ 'l::14S, 'l::1 5S \\ 'l::15S, " 'l::15S \\ 'l::15S,

--*-. I i I 1 I I I. I I 7 7r,----, ' I I i I I 1

• l I I I ' I

~ i LOAD I Pl.ANT I I I I REJECTION I TRIP I I I I 8V OTHERS CONTROLLER I CONTROLLER I I I I

'. I l BY I I I SY @}N.E.S. t'11S I I L _________ -----l I (i) I I B I 0n£RS I I I I

', I ?'11S+I