ML20031G582
| ML20031G582 | |
| Person / Time | |
|---|---|
| Site: | Rancho Seco |
| Issue date: | 05/11/1981 |
| From: | SACRAMENTO MUNICIPAL UTILITY DISTRICT |
| To: | |
| Shared Package | |
| ML20031G574 | List: |
| References | |
| I-108A, NUDOCS 8110230300 | |
| Download: ML20031G582 (37) | |
Text
{{#Wiki_filter:e 0 ( Pl!!,:vvk Rev. 17 5-11-81 1-108A UPS CIIANSFI. A TF.ST 1.0 PURPOSF .1 To provide a method for testing RPS Channel A.
2.0 REFERENCES
.1 Bailey I'eter Company Instruction Manuals. .2 Rancbo Seco Unit #1 Technical Soccifications Table 2.3-1. .3 AP-33, Calibration and Control o f Inspection and Test T.quipment. 3.0 LT"ITS AND PRECAUTIONS .1 This procedure is run at all levels of peactor pouer. Ca re must he taken to insure that an inadvertent RPS trip does not occur. .2 This nrocedure cannot be run if any of the other pFS Channels are in manual bypass mode. .3 Do not run this procedure if any vork is being done on any R"S Channel. .4 In the event that one of the trip devices in either of the sources supplying poner to the control rod drive nechanisms fails in the untripped state, the pouer supplied to the rod drive mechanisms through the failed trip device shall be manually removed within 30 ninutes, The conditions will be corrected and the renaining trip devices shall be tested within eight hours. If the condition is not corrected and the remaining trip devices are r.at tested within the eight-hour period, the reactor shall be placed in the hot shutdown condition within an additional four hours. .5 If at any time during the running of this procedure a listed tolerance or condition cannot be met, ston the procedure and notify IEC Engineering. 4.0 TEST EOUIP""'!T .1 UW!, HP '460P. or equivalent. .2 Simpson 160 VnSt. l t -l o ?.s / l Pev. 4 8110230300 811o19 DR ADOCK 05000312 p PDR ~
e 5.0 ACCEPTANCE CRITERIA .1 A'.1 tolerances listed in the Expected Value/ indication column of the ( Tast Procedure have been met. Computer points. annunciators, indicators, and recorders should be recorded when listed in the Expected meters Value/ Indication column but only to point out a possible problem
- cS.at needs to be corrected.
These items have no required Actual Value and are not critical to the RPS trip functions. 6.0 TEST PROCEDURE z i NOTE: This procedure is organized,so that separate sections can be run by themselves. With the i exception of Section 6.11. Reactor Trip Module Output Relay Test (which can be run on its own without additions) all sections of the Test Procedure (6.3, 6.4, 6.5, etc.) can only be run by themselves when preceded by Section 6.1, Chan-nel Test Procedure, and followed by Section 6.10, Placing Channel Back In Service. Except for Sections 6.1 and 6.10, any section can be left out of the procedure without invalidating the other sections. Normally, the procedure will be run straight through as written. ( NOTE: In the Expected Value/ Indication column of the test, some voltages will have a limit listed in parenthesis [ e.g. (<8.460 VDC) in Step 6.3.17 ]. This limit is the Technical Specification Limit on the particular parameter being tested. If the measured voltage falls outside the limit, Technical Specifications hcve been violated and a Reportable Occurrence Report (AP. 22) may need to be initiated. _ NOTE: After completion of Section 6.11, Reactor Trip Module Outp~ut Relay, of this procedure SP 208.04A, Monthly Test of Reactor Trip from Generator / Turbine Trips and/or Loss of Main Feedwater, will normally be run. Notify the Electrical Technician Foreman that I-108A is commencing so that preparations can be made for performing SP 208.04A immediately follow-ing its completion. 7.0 ENCLOSURES ( .1 fest Equipment Log. I-103A/2 Rev. 16 ~ -. -. __ - ~.
n (31 Cill ? 'Isl. TEST PREPAllATIO!I ,, 1, i Peactua Power f.evel Sect ions to be Per ormed Iteaso n r Overpower lilutable Sel point voltar.e from last 1-104 Step 6.1.1 "I " I DVit ACTilAl. I t!STPl!CTIONS . C0flNECTION EXPECTED val.Ill / If1DICATIO!! val.l!E IfitTI AI. .1 Place the loose Parts fianitor N/A N/A Auto /tfanual switela in the Manual posItina .2 Verify that no other work is 11/A All I!PS Channels in service (Except beinP, performed on any ?tPS Channel A J f this procedure la being channel run as part of a work ef fort on itPS Channel A) .1 Place PPS Channel A in N/A Cabinet hANtfAI. HYPASS lamp bright t1ANIIAI. HYPASS mde (Pemains Bright when in SilllT110lH3 BYPASS mode) Annunciator II2PSA F49 on Reactor Trip flodule MANIIAl. BYPASS lamp bright (Remains liriltht when in SiltlTDul#! HYPASS mode) I !. 4 Veri fy or remove RPS Channel !!/A Channel A out of Sl!!TfDOIRI BYPASS A f rom SilltfDOU*3 l'YPASS n. ode Annunciator 112PSA #60 clear (will not lioun 11ypass)i other channel is in Shut-lear if an .5 Place Power Itange Test Ifodule E in Jack on -5.000 +.lors VDC Tc.. t Selector Switch in Cal Function Overpower Illstable OllTPirr STATE lamp out position.. Fern sum knoh Generator dim ful1y CCW. Adjust Difference Overpower Bistahic OlITPLIT tlEtuRY lamp knoh to obtain -5 VDC. Reset overpower Histable if Power Fange Test ilodule Ori TEST lamp t ri pped. bright Reactor Trip Module TEST TRIP lamp bright .6 Place Flow Test Selec to r N/A Power / Imbalance / Flow Ilistable OllTPitT Switch in Cal Out position. STATE lamp dim Turn Cal Out knoh fully CW. ? Power / Imbalance / Flow Histable OPTPilT Reset Pouer/ imbalance / Flow l'EtoRY latrp dit.? Histable it tripped. Flow Test ilodule Off TEST lamp bright L__.___. D.ite i r rF - 1-ID8A/3 Rev.16 \\
... ~.. _ _ - - _ _ _ -. _. __ m ~ 4 t '.4 ? n i f - S (>l CllAtltiEL TEST PREPARATION (Cont'd) r y s c. /. a ( I r v s., i .g ._r: y__ -l -- I i INSTRUCTIONS l DVM AG i uAI. re [ CONNECTION EXPECTED VAlllE/ INDICATION VAIUE NIT I AI. / i .3 Place Pressure Test Module Input Jack liigh and I.ow Press. BIstables OUTPUT i Test Selector Switch in on I.ow STATE lamp dim l ~ 1 4 A Cal Out pusillon. Adjust Pressure liigh and low Press. Bintables OUTPUT i I Cal Out knob to obtain 7.0 Bistable MEMORY lema dim VDC. Reset liigh Pressure 81cactor Trip Module SUBSYSTEM TRIP ^ 4 and Low Pressure Bistables lamp" dim (Remains bright if Power / l Pumps or Press / Temp Bistable'is f j if tripped tripped) i g g re Test Madule_0N TEST lamp 7 _009 I.auu voc l-i __. 8 Place Temperature Test High Temperature Bistable OUTPUT { Module Test Selector STATE lamp dim liigh Temperature Bistable OUTPUT f Switch in Cal Out j . position. Turn Cal Out N/A Mal 0RY lamp dim l knob fully CCW. Reset Press / Temp B1 stable OUTPUT STATE I!1gh Temperature and g . lamp dim 1
- Press / Temp Bistables if Press / Temp B1 stable OUTPUT MEMORY tripped
. lamp dim l l l Temperature Test Module ON TEST l llemp bright Power / Pumps B1 stable OUTPUT STATE lIlampdim l 9 Place Contact Monitor l Test Module Test ~ Selector Switch in H/A l Power / Pumps Bistable OUTPUT MDIORY i l Simulated Input position, llamp dim lllampdim Reactor Trip Module SUBSYSTEM TRIP j Place all Simulated Contact Switches in the j ) on position. Reset Power / l (Contact Monitor Test Module ON TEST Pump: "Istable lamp _ bright j PERFORMED BY DATE ^ l ^ IEWED BY DATE TAC FNCINFFR
i. 6.2 POWER SUPPLIEF ~ DVM J l ACTUAL. i INSTRUCTIONS CONNECTION EXPECTED VAlUE/ INDICATION val.llE INITIAL. .1 Verify Channel +15 Output jack on 15.000 1.005 VOC volt Power Supply +15 volt Power Computer point E001 (Approx. 15) output Supply +15 Volt Power Supply Vo!t 1 Meter (Approx. 15) l .2 Verify Channel -15 Output jack on -15.000 i.005 VDC Power Supply -15 volt Power Computer point E005 (Approx. -15) l output Supply -15 Volt Power Supply Volt l Meter (Approx. -15) ' ~ .3 Verify Contact Output 1100 -1.250 1.014 VDC Monitor Power jack on Contact Contact Monitor Power Supply p Supply output Monitor Power Meter (Approx. 125) Supp1f j .4 Verify NI-5 Detector Output 11000 0.800 1.003 VDC Power Supply Output jack on NI-5 Computer point E013 (Approx. 800) Detector Power l NI-5 Detector Power Supply Supply Meter (Approx. 800) P'RFORHED P.Y DATE J REVIEWED BY DATE 16C ENCINEER I-108A/S Rev. 16 ~
(i. ] POWl'.1: IIANGE CilANNEL s. DVt! ACTUAL i I NSTI:llCT IONS CONNECTION EXPECTED val.UE/ INDICATION val.lf!' !!NITIAlS .1 l' lace l'ower Ittage Test Output jack on 0.000 i.005 VDC Tl= ?kidule Test Selector Top Linear l'op 1.Incar Amp fleter (Approx. 0) Switch in zero Amp Po*itfon 1.2 Verify liottom 1.inear Output Jack on 0.000 .005 VDC Bl= l Amp output Bot tom Linear Amp IIottom Linear Amp Meter (Approx. 0) l f.1 Verify Scaled Delta Flux Scaled output (Tl -151)x 1.990 =. VDC Sl= ~ ]17 Amp output jack on Scaled ( ~ '_f* U + *UI5 YUC ~ Delta Flux amp e- .4 V.1 !! y Pouer Imbalance E3 jack on Power -10.000 i.005 VDC E3 Amp l'3 input Imbalance Amp _ __ _7 .5 Verify Total Power Amp Scaled output B1 + T1 = VDC S2= l output (Note: Control Jack on Total 2 laiom measurements in Power Amp. S2 = Bl+T1 i.015 VDC Step 6 can also be taken 2 f at this time). Total Power Amp ?!eter (Approx. 0) l Computer Point G014 (Approx. 0) NI-5 Total Power RY indicator (Approx. 0) ( VDC 1 .6 Verify Power Imbalance E out jack on (B1 - TI) x 3.980 + F.3 = S3= Amp outnut Power Imbalance 2 Amp. S3= (B1-TI)x 3.980 + E3 i.015 VDC 17 2 Power Imbalance Amp Meter (Appro x. 0) Computer point G126 (Approx. 0) 0 NI-5 Power Imbalance RY indicator (Approx. t .7 Place Power Range Test output Jack on 12= I Module Test Selector Top Linear Amp I Switch in l<ange position. N/A l Turn input 1 pot fully { CCw. i
- J I
.8 Adjust Power Rany,e Test output Jack on 2.500 i.010 VDC 152 = lq17 flodule Input 2 po t to Bottotr. Linear Amp ~ I t obtain 2.500 VDC. t _ Da te : T-108A-6 Ite v. 17
6.3 POWER RANGE CllANNEl. (Continued) ACTUAL ~j l EXPECTED VALUE/1,ND_TCATION DVM [ ]_ I CONNECTION VALUE INITIAL __!{1 .9 Verify Power Imbalance E out Jack on (B2 - T2)x 3_qs0 + E3= VDC S4= Amp initput Power Imbalance 2 ( Amp S4 = (B2 - T2)_ x. 3.480 4 E3 i.015 VDC i 2 ) Power Imbalance Amp !!ct er (Approx. -62) i Computer Point G12_6_( Ayp rox. -62) N1-5 Power Imbalance RY indicator _( Approx -62)
- .El Adjust Power Range Test Output Jack on 2.500 i.010 VDC l T3=
^ I ?!odu l e Input I pot to Top Linear Amp 11 obtain
- 2. 500 VDC.
.11 Turn Power Range Test Output jack on N/A B3= Module Input 2 po t fully Bottom Linear __.CCW Amp { .12 Verify Power Imbalance E out jack on (B3-T3)x 3.980 & E3= VDC SS= 1 17 Amp output Power Imbalance 2 SS = (B3-T3)x 3m 80 + E31 015 VDC Amp 4 2 4 Power Imbalance Amp Meter ( Approx. +62) Computer Point Cl26 (Amprox _.M2) b NI-5 Power Imbalance RY indicator ( Approx gy .13 Adjust Power Range Test Output jack on Modul e Input 1 pot to Top Linear Amp 9.400 i.010 VDC T4= obtain 9.4 VDC 'T 4 Adjust Power Range Test Output jack on 9.400 t.010 VDC B4= l t Module Input 2 put to Bottom Linear .15 Verify Total Power Amp Scaled output (H4 + T4)= VDC ~~ S6- ___ _ _ _,.[ obtain 9.4 VDC Amp output Jack on Total 2 Power amp Sb=(B4 + T4) i.015 VDC 2 Total Power Amp Mecer (Approx 13 7. 5) Computer Point C014_(Approx 117.5) N1-5 Total Power RY indicator (Approx 117.5) i l i I-108A-7 Rev. 17 Date f ~
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6.4 FI.OW LilANNEI. AND POWER /It!!!AI.ANCE/ Fl.0W TRIP DVM -.ACTilAl.--- 1 USTRIICT I ONS CONNECT 10N EXPECTED VAI.UE/INDICATTON val.U E INITIAL. .I Veri fy 10 VDC supply + 10V jack on 10.005 i.005 VDC in Flow Test Module Flow Test Mod-ule .2 Place Flow Test Mod-Outpet Jack on 4.000 .040 VDC il = ~ ~ ' " " ~~ ule Test Selector 1.co p A s q. rt. I. cop A sq. rt. Ext. Me t e rlAJ! pro x. 32 x 10h) in 16% position Ext. Camputer Point F017 (Approx. 32) . 3 Ver i f y 1.oop Il tal, rt. Output jack on 4.000 6 040 VDC b----- Ext. output Loop 11 sq. rt. "'E "N* "* EE"** Ext. Computer Point F016 (Approx.' 32) l .4 Veri f y Total Flow Amp Scaled output K= rI= l Output (K is scale on Total Flow Al + B1 x K= VDC factor for Total Flow
- Amp, 2
Amp olitained f rom 880 TI= Al + Ill x K 1 015 VDC Module Calibration 2 - - ~ Total Flow Amp Meter ( Appro::. 64 x 106) Comgaiter Point F025 (Approx. 64) V ~- .5 Verify Function K Jack on Func TT= VDC Generator Bias Input tion Generator p l _ _ _ _..,..l KV=TI +.010 VDC -~ p'. l .6 Verify Function E out jack on KV= VDC cenerator output Function Cen-erator E= KV i.005 VDC A2= .7 Place Flow Test Output jack on 7.071 i.040 VDC l Module Test Sel-Loop A sq. rt. "E" ^EE#u** ector Switeh in Ext. S0Z posLtion . 8 Ver i f y I.oop 11 sq. Output jack on 7.071 i.040 V9C 112 = rt. Ext. output Loop 11 sq. rt. Corupator Point F016 (Approx. 56.6) Ext. I T -10tl A-9 Rev. 16 ' ' ~ ~ ~ ~ a
- 6. 4 FI.OU CilANNEl. AND POWER / IMBALANCE / FLOW TRIP (Continued)
~ l DMV AcftlA1. CONNECTION RXPECTED VAI.llE/ lflDICATION VAI.llE INITI Al. , IllSTRUCT IONS .9 Verify Total Flow Scaled output A2 + 112 x K= _ __ VDC Sl= Amp output jack on Total 2 Flou Amp Sl=A2tB2 xK +.015 VDC 4 2 Computer Point F025 (Approx. I I 'l) .10 Place 5'lowTest Output Jack on 30.000 i.040 VDC ?!odule Test Selector 1.oop A sq. rt. Swit ch on 100% posit-Ext. l.oop A nq..rt. ExL. Met er ( Approx. it'Oxl(5I5) lon .5[ Verify 1.oopBsq. rt. Output Jack on 10.000 t.040 VDC Ext, output loop 11 sq. rt. b 1.oop B sq. rt. Ext Meter ( Approx. 80x10 ) Ext. VDC .12 Ver i f y Total Flow Amp ' Scaled output A3 + B3 x K= 33 output i Jacl< on Total 3 " ^*E l-S2= A3 + B3 x K i.015 VDC 2 6 Total Flow Amp Meteer (Approx. 160 x 10 ) .13 Islace Flow Test flod-K jack on Func-8.465 i.001 VDC ule Test-Selector tion Generator Switch in Cal Out position. Adjust Cal Out knob to obtaio 8.465 VDC .14 Turn Power Range Test ! E out jack on 8.465 .005 VDC po, Moilule Di f f erence pot Function Cen-CCU unti1 voitage erator just inegins to decrease .15 Verify function Cen-E in jack on -3.750 -+.020 VDC ' I n, FO= 4 e ra t o r input Voltage Function Cea- - era W r I-l " \\-10 Rev. 16 Date _ ___,,_ _,,,, e
- 6. 4 Fl.OW CilANNEl. AND POWER /IMilAI.ANCE/Fl.0W TRIP (Continued)
~ ~ ~ ' ' DVll ACTliAl. ) '~~ I NSTiti!CTIONS CONNECTION F.XPECTED val.UE/ INDICATION VAI.llE INITI Al.S .16 Turn the Power Range E out jack on <0 VDC Test Module Difference Funct ion Cencra-Pot ful1y CCW. Verify tor Functton Generator output. .17 Turn Power llange Test E out jack on See Stcp.19 below for tolerance N/R see~' Module Difference Function Cen-(Approx 6.409 VDC) Step.19 pot CW until voltage erator breaks positive .18 Verify Function Cen-E in Jack on -2.485 .040 VDC (<-2.440 VDC) Fl= 16 erator input Voltage Function Cen-erator .19 Verify Function Cen-E out jack on P0 - 1.625 (F1 - FO) )= VDC VBl= orator Output Voltage Function Gener-ator Vill = PO - 1. 625 (F1-F0) ) i.019 yDc . 20 Turn Power Range Test E out Jack on 8.465 i.005 VDC Pl= Module Difference put Function Gener-CU until voltage just ator begins to decrease .21 Verify Function Gener-E in Jack on Fun- -6.250 i.020 VDC F2= ator input Voltana et ion Generator i s. .22 Turn Power Range Test E out Jack on < @VDC Module Diff pot CW Function Gener-until vol tage goes ator nega t Ive DATF* T-108A-11 Rev. 16
- 6. 4 Fl.0W CllANNEL AND POWER /IMllAl.ANCE/Fl.OW TRI P (Continued)
DVM ~ ~ ' ' ~ l Af'TilAI. I NSTitUCTIONS CONNECTION EXPECTEI) val.llE/1 ND I CATION VAI.t!E INITIAL. .23 Turu Power Range Test E out Jack on See Step.25 below for tolerance N/R see lladule Diff pot CCW Function Gener-(Approx. 6.409 VDC) Step.25 l (> uut il vol tage just ator breaks positive .2 Verify Function Gener-E in Jack on -7.515 +.040 VDC ( > - 7.560 VDC) F3= ator input Voltage Function Genera-tor . 2 5 Ve r i f y Func t ion E out jack on Pl - 1.625 (F2-F3) )= VDC Vil2= i Cenerator output Function Cen-Vil2 = P1 - ( l.625 (F2-F3) )1 .019VDC) [ Voltage era t or j .26 Adjust Pcwer Range E in jack on -5.000 +.100 VDC Test Module Diff Function knob to obtain -5VDC Cenerator .2 7 Reset Power / Imbalance / N/A Power / Imbalance / Flow Bistable OUTPUT Flow Ilistable STATE lamp dim Power / Imbalance / Flow llistable OUTPUT MEMORY lamp dim Reactor Trip Module SUBSYSTEll TitlP lamp dim .28 Turn Power Range Test E in jack on -2.485 t.040 VDC (< -2.440 VDC) g r, Module D1ff pot CCW Function Power / Imbalance / Flow llistable OU.I.PU.I. unt il Power / Imbalance / Generator S TE lamp bright Flow Bistable Trips P /i /F Bis b l e Ei~l'I'U'l' liElK)RY lamp bright Computer alarm C041 trip Reactor Trip Module SilllSYSTEM TRIP lamp bright I-108A-12 Rev. 16 DATE m _----.-..n......
w --e e e 1 i I 1 e, e s -~ i f b. t L ? t I .i t I t n I i l g } .. e 6 ? I t i. f* t< l t f I 6 i 4_ g i U> 1 ,< i g l w M
- x x
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- A E
h N != E+ b i=' f-f* l W = a a = =
- s i a-L A
A L L L D C !=
- =
6-i- fa l O =
- s a
= 3 = 3 [ C C 'O C O C r ~55 ; 3 U U U G d 4 w c C ~ u'* a 2 a. .~.a u u u y .'A. '.',;"l. 02 r.12 c: A 0 m a i-3 c
- n
= = = =c s 4 ~~ 3 ,3 3 3 3 3 3 3 O ~ O ,O O O V O .C O C., u_ a .-+ v J O A A A A.=
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c c ~ C. c ?o C c c C c c C c ~ J C O - -cn n E C. m - u - c. u e,= g g e e e. c e =, e e
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= 0 =c c E 2 L ! ~ b N 0 L c -0 C C c. O = m - 0 ? % U C %~ U" % r-e M.M c '=* =xu c
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6 0 1 S. l A I T I N I lAE U. l iTl ~ CA AV Y Y Y E E R E R h R T T O T O r O A A M A M A M T ST E S T E T E M S M S M T T T U l T T T T I i U U U P P l l U iP P P P P T T P T T T T lr. T U U U O O U l U U l O l O' O O O O ) ) e e E C e e e C e e l l b b T D l l l l D l l V b b h b V b b a a AD a a a a a a t t N 0 t t t t 0 t t s s s s 1 i O 4 s s s s l f B i 4 1 i l i I A 7 H l B l I 4 I l 1 l l T B 1 l I w w C w w w w w w o o I o o o o o o l l l l l l ( l l F F D( N P F C F F F F / / 6 C / / D / / C / / e em 1 1 / D e c V e e D e e c ci E V c e c c V c c n nd U. n n 0 n n n n a a v ) a 0 a a l l p e d 0 a a 0 O I l 1 l l t a a m R e A 1 l t l t 1 a ah C b b a 0 a a u V 0 ah ah b E b g D mm ml n b g b g b b i D mi mi i mm mm m' mi V I i I i t E i I I r /d /Y 4 I r I r I i I i n T / b /b 0 /d /d / /b 0 r rR 1 o C 6 r-r 0 r r 5 r r 0 e p eO ep e p 6 eE ep 1 wm wI A C E 7 e p ep 0 oa oD 8 w" wm wm wm ( P 3 wm wm 4 o" oa Pl PM 0 oa oa 5 oa oa X P Pl Pl Pl Pl 8 P Pl 1 E 7 1 I FT -e / / W / n e e O. e u c c c F r nne nne I F nne o oal oal l b l b / oal nt E l b oa k aa k aa C N k aa r cb t cb t N O c b. t k e ama ams I an s cn JI l JI i A. T JI 1 ae /B /B I A MC /B JG t r t r i VE t r A uew uew A l M DN u ew nn / pwo pwo / I N pwo i o N nol nol N / O nol i iPF I PF R C iPF Et EW O l P i t b / / / D t n t yo e t e t y e N s uw sl n c n c sl c A e o el k n e ns el n TUl T u a TW ap T u a Cl i f l CF f f l I E e / e f C a e ar e a N gb e gbiD b gbb t gb b N nocs noDV m n om no m A a nnp an I e anie an I e l: Rk ai Rk t 5 /l Rk/l Rk /l C l r s - rb rb rb S r mat rmu e a r mea rm e a W N e ub eujn wt euwt e u wt I0 O wS me wSdi os wS os wS os o A a Pi o Pi o Pl I o I l l l l l' T P e/b P e t l P e l P e I l t l l l t ra .b C l o ew nuiw nu e w li nu et nu R rd ws rd W s o rd t o rdW s o T u ool uoC o el uonl uoC el S TMPi TMCt RF TM uF TMC iF t l N 1 5 6 7 3 9 0 4 3 3 3 3 4 l 6
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3 I ^ IA I T I N I LAE UU TL E CA G AV A I A T L li E T O C V = TA l A P D / P i NO 4 p# I B T m T) B D D D D D B B B BB B D D I A a. C 1 l r 3 ) o # t D D B D D D B B D B B B D B BD I 6 / i l 1 E C C n D o W e U. D V V M v I AV 5 0 m t 2 M c # D D D B D B B B B B D D B B D D R 3 0 i a D 0 1 d t E 0 M T 0 = = n C i o E 1 D B D C 1 P 5 E D D D D B B B B B D B D D D B B 6 1 X 0 0 R E 0 5 I A U 2 Q 8 0 0 1 0 E 1 R I E n G C C C C C C C C C C C r o r A D D D D D D D D D D D o o T V V V V V V V V V V V nt k t L oi c i O 0 0 0 0 0 0 0 0 0 0 0 ne as nk V C C C C C 3 3 3 3 3 3 3 3 3 3 3 N k ol jp oc DD D D D 0 0 0 0 0 0 0 0 0 0 0 O cM u m Ma T VV V V V I a d t uc j U 1 1 1 1 1 1 1 1 1 1 1 T jt o nPi t P 0 0 0 0 0 MC cM i/b ct T 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 VE V a ora au U 0 0 0 0 0 0 0 0 0 0 0 0 66 6 6 0 0 0 0 0 0 0 33 3 3 DN t t pet t p O N 0 ns t ws nt 0 0 0 0 0 7 O 1 oe eoi ou 1 1 1 1 1 0 0 0 0 0 0 0 4 4 41 C +CT SPB C o ro rd t t oe c - L i t t t n at s 4 F F F F F F F F E nC eo iai yt ue '# N F N N N N N F F F F F F N N F N oD gp nl f not O O O O O O O O O O O O O O O O N MV n ous i o a A S am M me rC et S i N t0 R u i h e gs N l C O c1 S tS c gV ga O I a r C c t n nt p I 3 F F F F F F F F S T t e eeD aeii il m T N H F N N N F F N F F F N F F N P C nl wl V t l ww .d oa T OO O O O O O O O O OO O O O O N U ou ou nuS os nVl S U R Cd Pd0 od l no O P T o o5 C ot l oprd P 2 F F F F F F F F / S yM y t M2 M col son l N N N F N F F F F F N N F F N N R N f l s . e af L et a l O O O O O O O O O OO O OO O O m ct t ri C E I i t p ut 0 a s n e'1ur nt T W rs pjs O ee u d eo l eoh ooou I P VTS ATt PTC t pcM p W S 1 F F F F F F F F F F F F t F1 N N F F 5 N N N N F t 0OO0OO3OOOO 1 2 3 OO O O O .6 5
i ? lA I T I N I I. lAE l 2 i l. = P TI l' / CA T' AV P P p _ p p p p m p m m u m a m _ a a a _l a a l l l l l Y P Y Y P _R I E E R E R I T O T O R T O R A M A M T A M T T E T E T E e S M S M M S M M t E C E a T r T D T _T T _ D T T l r S V l _l S U l l l i l i I' P P P Y P ,P Y T l T l f O l T l T S ) r .T 1 p T S I l l l ll l C l I ll i l D O O r T O O O O iS V S t i A _9 C e e e e e e I l l l l e 0C e l l D b b b b l 3 D b b l 4 a a u 0
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a a a a u t t d G C I t t t t d / s s s s o 0 s s o D M m V M + 3 l l B i l i l 6 l l r 0 l l l l ll. I I l I i I 1 p a C 0 p 1 l s st a s D 0 P s s i. l A l V p p h, p p r /+ p p r a V 1 v m mr m m T' P m m T e D u ui u um < 1 u u r 0 R E P P r P Pi r ( P P P r e 0 + 0 T / t /b / /d o / /t / t ot t C rh r r r t = P rh rh t h u 0 7 E eg ep e ep c l = eg eg cg p 0 0 1 P wi wm wm wm am P l wi wi ai m 1 0 -A X or oa oi oa ei / T or or er o E Pb Pl Pd Pl Rd P P Pb Pb Rb C 9 80 1 / / r r 1 e e w w / o o r P P ew n n o o o P e e e kl kl nl N cb cb ob O aa aa a ) I jt Jt kt d T s s c s e C ti di ai u ME A A nl nB JB l n VN / / i a DN N N os b s t s i t pp d p up 1 1 t m am pm n ( o eu e u nu C SP DP I P ( e l e s t n li i b l p s o N a b l i e i N t a i r T t l s t t t i o A s t n r st l l C i sue oro l I B e l t o pb S s TWb s it o P p s C a pd nct n lM m p e t mn oeuk l u m gb u ua Ml O P P u nol Pb e t / / t P anB /d t Sl u R r e / Rk ra c aOC E S e s r s ee at C D W N we e rmp wd t s V l O O or w e um o nena P I P o wS u P e otic 9 T t P o P l C l yo P e/ yb eh t u C l f n t l r l a el c sl e nu e f t c ut ua R i T rd s rd w r s adijt ~ te uo o ei l owdb S ei N Vd I TMP Vl MSA o l 1 ~ i'. ~ I 7 8 5 6 6 4 ~
6.5 POWElt/PliMPS CllANNEI. (Cont inued) ACTUAI. DVM l HSTittlCTIONS CONNECTION EXPF.CTEn val.llE/ INDICATION VAI.llE I N I T I Al.S. .9 lteset P ase c/ Pumps 111 stable N/A Power / Pumps liistable otrrl'irr STATE lamp dim Power / Pumps 1.llstable OllTI'lfr MEMoltY lamp dim Computer alarm C049 normal _., _ .10 Turn Power Range Test Setpoint Jack on P/P2= VOC i >T2 = Module Sum knob CW Power / Pumps !!1 stable
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6 ItC PitESSilitM CilANNEI, DVM A("rilAl. I NSTitUC r IONS CONNECTION EXPECTED VAI.llE/1NDICATION val.llE INTI Al.S .1 Verify Pressure Tent +10 V jack on Press-10.000 i.005 VDC Moilu l e 10 VDC Supply ure Test Mod ule .2 Turn itC Pressure Test Input Jack on 1.ow 2.625 1 030 VDC (> 2.500 VDC) Pl= Module Cal OUt knob Pressure llistable CCW ont il Low Press-I.ow Pressure Illstable OllTPilT STKrE ure Histable trips lamp bright Low Pressure Illutable OllTPLrr ll!:MultY lamp bright Reactor Trip flodule SUBSYSTEM TitIP lamp bright Computer alarm P023 trip .3 Verify Low Pressure Setpoint jack on 2.625 i.005 VDC (> 2.500 VDC) llistable setpoint low Pressure llistable .4 Verify Low Pressure Deadband jack on > 10.000 'suc Bistable deadband Iow Pressure Bistable .5 Verify Pressure lluffer Input #2 jack on Pl= VDC -pg3% l input, meter, and com-Pressure Buffer PBl=PI +.015 VDC l puter output i Pressure lluffer Meter (Approx. 1910) Computer Point'P014 (Approx. 1910) DATE 1-108A-19 Hev.16
- 6. 6 RC PRESSifRE CllAfdlEl.
~ ~ DVM ACTUAI. INSTittlCTIONS CONNECTION EXPECTED val.llE/lf1DICAT10tl val.llE ItllTI Al. .6 Adjust RC Pressure Test Input jack on low 5.000 t.100 VI)C Module Cal Out knob to Pressure llistable In Pressure illstable OUTPLII' STATE obtain 5 VDC. Verify j , g, y low Pressure llis ta bl e does not reset low Pressure Illstable OUTPilT MEtV)RY lamp bright .7 Iteset low Pressure N/A low Pressure illstable OUTPllT STATE llistable lamp dim Low Pressure Illstahle OUTP11T MEMORY lamp dlm Computer Alarm P023 normal Reactor Trip Module SUllSYSTEM TRIP lamp dim P2= .8 Turn RC Pressure Test Input jack on 7.375 i.036 VI)C (<7.500 VDC) Module Cal Out knob CW liigh Preasur Hi Pressur e Illstable OUTPi1T STATE until liigh Pressure B1 stable B1stablu ,g s BistaMe OUTEIMEMORY i i>o i in St c be read at this time. ~ ~~~ Computer clarm P019 trip Reactor Tri.p Module SUBSYSTEM TRIP lamp bright, .9 verify liigh Pressure Setpoint jack on 7.375 i.005 VDC (< 7.500 VDC) llistable setpoint Illgh Pressure Bistable .10 Verify liigh Pressure Deadband jack on > 10.'000 VDC llistable Deadband liigh Pressure llistable ^ T-108A-20 Rev.16 l A I T I N I e e t t lAE a a U l. D D l TI = CA 2 AV i l P p m r a e Y Y l e ) h l E l n t t 0 9 ) T 0 T o P i I g 2 0 A M A H 2 9 T E T _ E R n N 2 M S M T E S O 2 I x T T T T M C T o U U U U E 6 A r x P P P P T I C C p o T, T T T l S T D p r U L U U a Y I D V A p O O O O m S N ( p r B I A e e e e o U y n S B y / r ( l l l l l E e b b b b l I t 4 a a a a 9 e d I. l e l t t t t 1 l e d A C M h s s s s 0 u m e V D P C V r D l i B l P d r w i l 1 i l l o o e 6 l t V m M D e f i 1 E 5 f n e e e e r r v 0 r r r r a p e e T 1 f i u o 0 ut ut u u l i P R C 0 P 1 sh sh s s a r v E l P l sg sg s s T e l X + e r ei ei em em r I E r e i rr r r ri ri e r 2 u t Pb Pb Pd Pd t o P s u 0 u t = s p 0 h p ip h p h p p c 1 l s = 2 e m 0 gm gm gm gm m am 2 2 B r o l a i a ia o ei l a ii l l i l C Rd A i P P P C 7 I l l l l 80 1 hge I n i or i lb l e a N kf nt O cf os au i I l l T Jl kl MC c VE 2 e ae ) DN
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N u u e O t s t s u C us u s A n pe pe / nr nr N i t I P I P no C r ( e rt t t l eu so e E f p et s 1 f m T ee iN luo b r r e A c eo u r il l r r st u C ed uk so s en s r n s E ua st C r e Ul s euDP s r l s r ROV e P S e e P h o 0, igd h S S rt l g E N P e C a i e il i e I O t m, t RC7 l l l l' I y T f t u t e n yb b C C up sl if a t a i U r pt uuait et I I R enu j d t r s s s T Vi o d ob ei ei l l S AM oVl Ri H l 1 2 3 6 I I 1 6 t M l A I T I I N IAE U t. l TI = l CA I' C AV T T ~ r E e ) T t 0 A e 7 D M 5 C C r D D e x V V t o N r r O 5 e p 3 v p I T 0 n A A o ( 6 C C I +- 8 1 D l ) 0 v N C ) a0 1 I D 0 n7 T e / V C 0 g5 R E D 1 i t U. 5 V S n = ( x i 0 ) eo o 2 I 5 A 0 0 0 x r r P 2 V 0 up P I i 0 ) 1 1 t p r A I E T aA e 8 R T 5 + ( r( t 0 T C 0 = e u A 1 5 A x p) p / E 0 e.F m m N 1 0 / 1 E P N 1 C o R Y 0 9 T T T C U E 1 T 4 A RE - e - - e l ) r pl pnk c g a: X mu p moa c ki net X i
- t l
ed m eCT5 a cS gt nX Y T o e T a i oeX o) je nSN c X. Tl l : / li e E n a naEt X rr o R ot nn onT X t ue e r( U N s og gOt X ut t k r.ue kin nX par c ursc S O k e i t re at eaay cT kS r cS e X. S I m ue v J at el c E T a c e a R MC je aet Je .e( opn rrmpa mo t ee r P VE r j r r rrr DN V u ue t ueuey .eC upve5 u D N t st v ut t scc pT pmnk c N O 0 a aan paraaa m l neoaoc ro nreel r ena I TCTt a A C 1 r i I, - e I eC I evmpu T on l E s N a t - N C l ul A eD el n eoep i li rV r e i r sm e C u ur rt ur e rt n t 0 t e ush t erT ush o E a1 at t ec at e t eci R r - r r aTt rrt o aTt t n ee et r ii U e ee r i T pe pv eewo pvm e ews A ml mu pl Si mn h pl S o R S eu eo mu t eonc mu p E N Td TC ed ri TC rt n ed r P O o T oos uio T oo% yM y yl Mt o yl T wt t 0 I I F E T f l f a e c p f a st e c0 i n. i ct e1 l n ct e T C i t p i i r sp r g asl % rgt t s asleen R eeu ei l ee0 ei uco l T VT s VS PTS 5 VS pep ' l' TSI S 7 N 2 3 4 5 6. I 1 i 6.7 TEMPERATIIRE CllAMEl, AND PRESSURE /TEFIPERATilRE TRIP DVM
- ACTilAl, I NSTRilCTIONS CONUFCTION EXPECTED VAI.llE/ INDICATION VAI.llE IHITI Al.
.6 Verify Temperature Sig-Temp. output Jack on T2 x(-100)= VDC T3= nal Converter output Tenperature Signal T3=T2 x (-100) +.035 VDC Conver te r Temperature Signal Converter Meter (* F) (A pp ro x. 619) Computer Point T108 (Approx. 619) ~~ .7 Verify Temperature Pressure Setpoint Jack (1.620) x (T3) - 9.810= VDC TC2= Signal Converter Press. on Temperature Signal TC2= (1.620) x (T3) -9.81i) i.050 VDC setpoint output. Turn Conve rte r l meter select switch to Temperature Signal Converter tieter _ ___ Pressure Setpoint (PSI) (Approx. 2200) position. .8 Place Temperature Test Temp. output jack on 6.133 i.100 VDC T4= Module Test Selector Temperature Signal ~ ~ ~ 11 h-e e BIM ic OUTPU'I' BTA'I'E Switch in Cal Out posi-Conver te r tlon. Adjust Cal Out "*P I" knob to obtain 6.133 VDC $ Tgme BisM& Om'Pm' Reset liigh Temperature FIEMORY lamp dim llistable if tripped. .9 Verify temperatura Sig-Pressure Setpoint (1.620) x (T4) - 9.810 - VI)C 1 nal Converter Pressure Jack on Temperature TC3= (1.620) x (T4) -9.810,1 050 VDC Setpoint output Signal Converter Temperature Signal Converter Meter (PSI) (Approx, l'710 PSI) c-DATE I-108A-23 Rev. 16 6 (, 1 i l ) l A I l T f f I ~ . E I l A l. l il TA CV A E E p f T p m P. IA' A m a TA F I T a l P S' S P D l I Y I T T R 8 'i T r T C R R r u' U U T O T U U T 1 l ) P P 6 p P P P A M C l' l t ) T T T r T E M T t r C U U U l S M E Dl l E N V O O T x D O O O O T T T S S o V l O 0 e e Y r 0 k-e e e a U Y I L m P P S I pS p 0 l l l T 0 l l l _l p b b b b r T T l l 8 b b i_u A 8 A a a a o U l u W r a a l C t t r n O O S 9 t t t S ( ) s s 9 I s s s D i i i 9 e e e 9 e 8 d l ( i t h 2 u 1 h e T a a d I l l l l e it 0 l 0 ( B B t B l 0 l l l l l u 2 b b u 6 I / n C eh eg T,d T C C eg e m E ri r r m t t o D r g ri o D D i t U. V ui ur ur u ui m s s M n M t V. V a t b t t d r i f l v n t r t a r n I l A 0 ab a a p i 5 C 0 l i p e a a a a o l l C V t r p r rp l i 1 3 r r p l i t o 0 D 0 ph em e em A p p r e p em A rh P 0 V 1 0 ( g pa p pa m m T pm pa Tg D i ml mm ml r e e m E ma ml r i r 0 hb P T 1el e err e + 0 + r e ei e e T T ri 4 TY Td TY t / / od I C T TY ru t u 0 0 ob t ^ 0 R R u s s t R E 0 E h 0 0 p hO h p hO p s s cp T P 7 hT h0 p c p p 7 9 m gM gm gM m em em am t X 7 gA gf m am m 7 1 1 d l E i a I E o ri ri ea 8 E E i T iE o ea o I t C Pd Pd Rl R 9 iS iM C Rl C 9 8 H1 l M i l I t I. l l I l U T [ A e R h - t r E ga uu i t ne ne pt r P t l t s or or t ae h 11 1 u u urt T O nB kt kt oer / I o c a ca pe E T e ar ar emv l R C k r j e je r e n i U VE c u p p uTo S DN at t me d me t C S N j a nel nel an E O r i Tb aTb rol R C t e o a b a e a P up pht dht pk n A pme t gs ags mc g / D nel eii el i eai N il Dl l TjS l N I Tb Sl l I A e e t e. I E r r s rt e 1 t u u e ue r - 1 N s t t T t s ua l eb a a b ae t r A i T op r r eo.rr ae C nm et ed r nC e r p ek e pn pn ukD pt em E r T mi ma t V mo pe R ut u eo eb at en mT s U t uh p T p Td r u 9. T e/e T a o gi t a eO d T el A S r ir h e h e p 8hi rb E O pa l t gS gD ml gd h ua R N el i i i e ani gst l mCl e t e l e TCi i e i M T e il l l a l i s s P i l I e! E C T et b yb yb t et yb l r1 1 T U l na f a f a sl bf a t P R nuut i t i t uuoit e e T rd s r s rs jd rs sd r ^ S uoWt ei ei d ooei e nu N TMCl VI Vl AMt VI R at i l l l I 7 0 1 2 3 4 1 1 1 1 1 6 j 7". 4 t a i p F. 1 e ) e 6 l p i Z, s e s 6 i e 6 l -"E... = t '"J Il U <f, slla } N i } l f i } i= 6 i I t 1 i } i I l u f t e i I E , OC l fi f-e L a I. "=3 , L 4 a ^ 3 l E = = =. E L L E Q O E L,E 0 v C E O I E O E ;O ,a l>O l ,c O - C O O = ,L C k em A ~ l '> t >= l >2 U M = ,M = l } ~ = O i-. e i- ,s e i- ,c e < Z ,Z I' n Z , %z Z E-* W 5-W C i-* 6 C C/* ,Z f.:2 C/: Z C". ,E' 23 l 0 m E* i= 2 +l O. fa i-. M. fa P e4 :/: C = m m = != n [ c u C Q L L a C/3 L L L L E ".O l 5= 5-= E-i= E= i-W = i-- C O D L O O Q 3 D 0,O Q "O. C u ,q l O C u m C C O .O = M C Cs d G "J 5 C Q C Q QN "J C I
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> v C 0 0 0 - w C C = O = N 6N O 1 1 L C C 1 C. O c 6 N E E E E Ea I E E t-* i-. C X c. U Q b Q Q Q Q W O X M i= E* Q k C +l f* E* i= != 0 6 00 M "-*.^ -* 2 U C v 6 0 00 % u % M u O u C N N u % u O C L1.: 3.: u.: C. C m D., 'A
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- =<
= 'A N 0 % ~%. rA cc A OC C. O cc C 'A U3 CO
- A
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i= L Il L C. ll-. < Q== 0-E C== C C. C Cw ~J C E O E 6 L L 6 ,L O Q i O< != A w 6 u L 0 Q k = h2 V L ia v L v ,A. A.O.O %.O A 6A L , A.O L 'O C M k.T.- l L ,3 0 Q i-0 1 'A m u W C OC "A .3 W m -. Q C O 1u b x D 0 u u C Q O 2 u a
- 4
- L u Z
O C U d= C Q L t/2
- 6 6
= 0 0C 1Q f.:.: F= 0 ". "J G== c Q E > = ZO G. u u a -1 k 3 C ED L
- > M M Q W 4 c E
C2 0 % C 3 u
- O u
C z mQ > cm C i-e: Z L O% 6 Oe4 ^ U E O c: .O 3 0 "A 0Q u 'C U3 L3 : 'A i= 0 L c 3 E 3 c4 Z 1E Q W f tJ -*
- 4 0
Z W
- J
= 0 CL ia 9 C/3 Z ,L 0 C -- Ea <= 0 C U w
- 1 C. *3
-9 u b .J Q E = 0 C C 0 C. u Q <.s - C u Q n u-a u v3 E O a C C O "A 5-= O C.O hm Q Q WU %c a r) O w ** W E* O 6 L = i- . "J 04 0 0 3O
- r. 3 d
=* ~2 N L> L 2 OU 2 3 % O O k u M M E u m *- G L 0 ~3 3-u Q C. O A Z l i-u m C 0 Q Q = E
- A w
L > E 0 ~4 z u c.= 3.
- = Q E -2.c Q
u Q L 3 0 0 E~ "J A~ Z O A C 0 E-* = = Z CN b h: != Z .N- .O h-Z
== i-= 5-4- ": 2 0 .M '.1 O .Z C Z ~; .J O C -< C 2 L u A m .s CU C A ' u J O 6 ::, C .a L U: u 0 "J L
- A 6 %
u> Q Q U: Z 0 -, w = l = J = W - Q-
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== Zg N Zi0 C h 00 O ~ -t,- e i_ _
6.7 TEtll'ER ATllHE CilANNEl. ANI) PRESSilllE/TEtll'ERATURE Tit lP (Cont luneil) I)VH ACrtlAI. I NSTRilCTIONS CONNECrION EXPECTED val.IIE/ IN111CATlON val.llE ItilTI Al. .20 Turn Signal Omverter N/A N/A tieter Select Sw1Leh to TEMP position .21 Turn Temperature Test N/A N/A tladule Cal Out knob ful1y CCll .22 Adjust Pressure Test Input Jack on low 7.000 i.100 VDC Module Cal Out knob Pressure llistable to obtain 7.0 VDC Per forme.1 liy Dat e Revicwed lly Date___,. I&C Engineer I-108A-26 Rev '16 b e M O O
t 6.8 SiltlTDOWii BYPASS Th1P ~ DVM l } ACTUAL. INSTRUCTIONS ColiNECTION l EXPECTED VALUE/ INDICATION l val.U P. IllIT I AI. .1 Place RPS Channel A in N/A lAux. Relay SiluTDokN llYPASS lampa (3) { Shutdown Bypass mode (bright l i (using Shutdown Ilypass Annunciator it2PSAi#60 on (reflash when Keyswitch) reactor 18 lu cold shutdowu) .2 Turn Pressure Test N/A Low Pressure illstable OUTPUT STATE lamp Module Cal Out knob bright fully CCW. Low Pressure Bistabic OUTPUT llEMORY j lamp bright _;l .3 Reset Shutdown Bypass Shutdown Bypass Bistable OUTPUT STATE l B1 stable N/A lamp dim i Shutdown Bypass B1 stable OUTPUT MEMORY lamp dim Reactor Trip Module SUBSYSTEM TRIP ( lamp dim .4 Turn Pressure Test Input jack on 11.375 1.030 VDC Module Cal Out knch CW Shutdown Bypass l Shutdown Bypass B1 stable OUTPUT STATE lamp bright until Shutdown Bypass Bistable Shutdown Bypass Histable OUTPUT MEMORY BIstabic trips l lamp bright f Reactor Trip Module SullSYSTDI TRIP lamp bright .5 Verify Shutdown Bypass Setpoint jack on 11.375 i.005 VDC (<1.500 VDC) Bistable Setpoint l Shutdown Bypass Bistable .6 Verify Shutdown Bypass Deadband jack on,> 10.000 VDC Bistable deadband Shutdown Bypass l Bistable DATE: I-1084/ 27 Rey, 16
(>. 8 SittiTDOUN 11YPASS TRIP (Cont.) ~ Af."I'lldi. DV}l ._ INSTRl!C'I L ONS CONNECTION EXPECTED VAI.llE/1NDICATION VAI.UE INITIAI. .7 Adjust Pressure Test Input Jack on 0.000 .100 VDC Module fully CCW. Ver-I.ow Pressure Sima down Bypass Histabic OUTPUT STATE ify Shutdown Ilypass lli s t ab l e. lamp bright Histable does not ! Shutdown Bypass llistable Ol!Pirr HEt10RY reset. lamp bright .8 Remove RFS Channel A N/A Aux. Itclay SilVTD011N llYPASS lamps ( ')) li from Shutdoun Bypass ,i m Anr.unciator Il2PSA ll60 clear ( wil1 not ' clear if any other RPS Channel is in Shutdown Ilypass) Shutdown Bypass Ilistable OUTPUT STATE .9 Reset Shutdown Bypass N/A ., lamp dim _ _ Bistable Shutdown Bypash Histable OUTPllT MEMORY lamp dim .10 Adjust pressure Test Input Jack on 7,000 +.100 VDC Module to olitain I.ow Pressure 7.0 VDC. lteset I.ow Bistable 1.os Pressure llistable OUTPilT STATE lamp Pressure Bistable. dim t 1.ow Pressure I!! stable OUTPUT MEMORY lamp dim Reactor Trip Module StillSYSTFM TRlP lamp dim Date Performed Ily Reviewed By Date T&C Engineer T-ifQ428 Re.g. T6 m m
NO = 6.9 Ril l'HESSilitE THIP
- ACTLIAl, DVII I NSTRilCTIONS CONNECTION EXPECTEI) VAIJ1E/ INI) f CATION VAI.t!E INITI Al.
Hli Pressure Contact 4tuffer INPilT STATE .1 l'ress and release RB Pressure Contact N/A lamps (2) on Computer alarm P039 t ri p lluffer Test Trip Reactor Trip }fodule SilllSYSTEM TRIP switch h l am p__liff t RB Pressure Contact 11uf f er INPIIT STATE .2 Press and release.-Ril lamps (2) off Pressure Contact fluffer Reset switch N/A Computer alarm P039 normal Reactor Trip Module SilBSYSTEM TRIP j l lamp dim 1 DATE PERFORMED liY l> ATE REVIEWED 15Y I6C ENGINEER 4 9 4 1 1-10HA-29 1:ev. 16 =m.- m-
4. 6.10 l'I.ACitlG CIIANNEl, liACK IN SERVICE e Reactor Power Level ACTUAI. INSTRUCTIONS DVH CONilECTION EXPECT EI) val.llE/1NI)TCATION VAIllE I tilt I A_l. _
- .1 Place Power Range Test Module, Power Range Test Module UN TEST lamp dim Flow Test Module, Press. Test p
Module, Contact Monitor Test N/A Flou Test Module ON TEST lamp dim Pressure Teut Module 011 TEST lamp I tiod ule, and Temperature Test I dim Module Test Selector Switches Contact Monitor Test llodule UN TEST in the operate position. lamp dim Temperature Test Module ON TEST lamp dim Reactor Trip Module TEST TRIP lamp dim .2 Place RPS Channel A in Shutdown Aux. Relay SilUTDOWN BYPASS lamps (3) liypass node if reactor is in N/A bright if Reactor Shutdown, NA if shutdown condition Reactor at power 1,12PSA Window 60 Oa or Reflash if Reactor
- thutdown; NA if Reactor at power b--...
NAEU 3 I-108A / 30 Rev. 16 i 0
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== E = E e , c
- =
v "l* O 1 E v E c c. E E E E C. u: E E e C E C E E E E^ 1 i= C m." e c3 "O L E O E <^ r a cC = E e 6 C CA Ce c. c. E - 3 C c. V. 3 Z c c-E C E E c 0 > u E M cc c C 3 E c3 1 = 0 h: " c 1 E-C 1 5 E ", [- O c w C E E-u QC E = b h: E O .J
- 2 c
c-c c.* v. I b C L = C u > u M c '. E.: N A B 6 W % = E-- C.
- v. T Z tr2 Z
5.- 6 O v. !=.: E-* C.: E Z = cr* + cr = = c/. I C C v. Z U: E.- C b
- d l
"O [-* u i-C n = e-C c c u E-. e e z
- v. e Zn O
Z !-= i-. i-H "J c c6
- v. C ZW L
h: C C.C A C Z t C 3 c f./: Z F 3 Ed 3 d b = = = = - u
- -U Fu u
a-C E-u: Z C C a L O u E-= C E-u = C
- = c D
= c E-C.( i-- 6 cc cc =7 = U E-6 A "O A "O C C C C V: O S E-0 C = D u G u C A u 'b c U E" u bu C C 3" 0A v. O C tr. 0
- r: o b
l-. c A A = 0 'O - CC W O v a.- = = = L 2. O .O C3. .= 6 E-C.: C = M Z H E-- c e Q Q CO ".: CO C v. C D = U2 U: .O - .O m = G
- =
= 0 u u C CC C.~. C C C C c c :0 v. U c2 .O 3* 3 C Q L U C -4 M b u 6 u Q N C C 2 2: s--* C C C .O C .O C to C tt M C c c c6 C *"M = .: u ,a k M 'J C C C .,a u - 0 C u cu. -* u '=* C '.i.: c.* 0 41 D7 A cU c: .O .O u U u o
- U
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Q C N N" u c 4' ":: C e .CT: C C C C c c 6 6 C =c 0 u o tt: 0 u u .a O - CJ tt) 0
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- r. O O
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- 0 C
C Ci C CC C. CC C. C CL N -=
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M L = c 6 L 1 0 - L - 0
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- c
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- 0
=u o o c2 : 'J2 : O C C C X 3 3 o Q W 6 P-C >= 0 A: C O E== h-C "U G "O 3 0 3 C W 0 0 E-- E.= A L N N N N C N N k 6 O C O h >, 6 L u b
- C
- c C u A u 7 u u
2. a a O C C > Q Q Q h '.12 T U U u O u-C 2 6 6 Z c c .J. c.~.
- 4 3 E 3 c 3 :S 3 c 0
0 3 GC 3 ci
- GG c
i cv C E C o oE 6 6 0 0 C c .: o .: 3 o l l C C 'C = = = = A CV
- - W CV W
W
- v. k
- v.
- i G
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I 4 1 s r A o I t T e s n ni l ieiv t arb r I t uae rd c p ee u c CSS oP: ,rI t yp f e e ei t t l hh i a l. a "i l k i t S l nn I l A .-l oik e li I. i mch T1 CA s" 1 o s ( t i AV a o. ci ,t r ct n e O us e ,ry n e e i D .seI g c E 1 ab n c s E r T 1 A os t o n li p t o 6 et a C e c T h p 6 6 c a f C ot t y T 1 i x e f A t sl e i o sa t ( M 1 il l a v n E n e s T 6h en y e i h t S ch n B y N l d u h, Y nut a I r S ot H d i p t i i s e d d m e 2 R t f i m p l a e O cI n r w 3 Q-l c n T e 0 a o e x r 1 S 1 f i s) e a r v l o my6 s e e 0, r sn ( l aw A M ol s P R 1 yd i i rena po m I i t S f t op l t d t T aiy u r r lt h rt l f N l h a p a A gt c 0 as e m P P uren oeS w n l a ) 1 T nd c l e 'I m r s o A al s S o h rd o t d et n C P o 0 s o 0 l n I c 4 s) o. 0. l evi u t r el e D e F an I I hi nS n pw r l ( N i i l o gue A yo o t I n i / d S r i qh, t l E R os P l d i t t ai 'S' r t aei t C ll. Mi 2 l u n I n rr e V A pr l ah no o t n 1 I l o r n ioM wC se us . i o b t b 'l: V i I rt o P. d e n na S D T c t lad t aI nh u yi c l P i E a a o r l t rao i t c h& mpe i T re t t l C oH c e I n s h E t n nn " V Ai i est S ri K 'i cn u i I U X ae n b l e Pf euh n h 2f rd t r 7 E 1 teh u a2 l 1 I w A C1 A t I o ue u l d ct t eoae lE cr r s e opp 1 s /h r od A a ot pet n p t d h sa l y u nn st C l y e el eAi at i i n G n s e hf l nl orh ns t ol i lf I aa oe al C i h u Io. o c S t t i R ysu ii t l nss A. C n l 0 a enuie oui l S l' h oS sh ai h ~ P 1 mt T P 't M ot l t 1 p n r rl C I f esa s o ooi t o i e e' ct nost N p va t 1 i t d ar nt et 8 T lauu l aa ur u I Sl Tor P PMA pb f E b I T O i 4 N
6.11 REACTOR TRIP MODULE OUTPUT RELAY NOTE: This sectioe can be aned to test for outlnit relay action by either tripping; the CHD hreaker or by veritying loss of 118 VAC to the breaker trip relay. With the Reactor at p..wer, t he breaker will always be tripped..During reactor shutdown, normal procedure will be to verify lons of 118 VAC. Prior to startup af ter a cold shutdown, a breaker trip test will be required to verify proper action of the trip relay. NOTE: Notify Electrical Technician Department that performance of liP 208.04A can be initlated immediately following a,mpletion of this section. i 4 i CAUTION: Ensure that CRD cooling water is available before CRD breakers are closed. Instruct the operator to place and maintain the Diamond Station in manual and not to move rods while this section is being performed. 4 Breaker trip test YES NO If not reason: _.. l VOH ACTUAL Ill5TRUCTI0 tis CONNECTION EXPECTED VALUE/INDICATI0tl VALUF INITIAL .1 Verify no RPS Channels Cabinet SUBASSDIBLY A lamps (4) dim 4 tripped ti/A Cabinet SUBASSalBLY B lamps (4) dim i Cabinet SUBASSEMBLY C lamps (4) dim Cabinet SUHASSEMBLY D lamps (4) dim Reactor Trip Module NO 1 lamp dim Reactor Trip Module NO 2 lamp dim , Reactor Trip Module NO 3 lamp dim Reactor Trip Ikulule MG 4 lamp dim .2 Place Reactor frip _ Reactor Trip Module NO 1 lamp bright Module N0 1 switch in N/A Cabinet SUBASSEMBLY A lamp bright Simulate Trip Poultton DATE:
6.11 REACTOR TRIP MODULE OUTPUT RELAY (Cont'd.) 1 l VOM ACTilAI. ~ INSTRUCTIONS CONNECTION EXPECTED VAI.UE/ INDICATION val.IIE ItJ I T I AI. .3 Place Reactot Trip Terminals 1 & 2 Module NO 2 switch In ott Al-10-6 lireaker Trip Test No lireaker Trip 11/A Simulate Trip position Verify: Verify: NOTE: 1.oss of 118 VAC ~ CRD 480VAC Breaker I8 I"" A tripped (loss of O i 20 VAC 118 VAC) loss of 118 VAC Reactor Trip Module 118 VAC is REACTOR TRIP lamo N/A defined as i bright 118 i 15 VAC Cabinet BREAKER TRIP lamp bright N/A Annunciator ll2PSA
- 17 and #28 on N/A CRD Power Supplies Motor lamp'for N/A System A off on CRD Control Panel j
Reactor Trip Module NO 2 lamp bright Cabinet SUllASSEMill Y 11 lamp bright DATE: I-108A/1A Rev. 16 e A A A
- 6. li ItEAC'10R TillP MODUI.E OUTPilT !!El.AY (Cont.)
C VOM ACTi1Al. INSTRIICTIONS CONNECTION EXPECTED VAI.llE/ INDICATION VAI.llE INITIAL. .4 Place Reactor Trip, terminals 1&2 118 VAC Module NO 1 swi tch in on Al-10-6 Reactor Trip Modiale NO 1 lamp dim Operate posi tion Cabi net SUHASSEMnl.Y A lamp dim .5 Place Reactor Tri p terminals 162 loss of 118 VAC Module No 3 sultch in on Al-10-6 Reactor Trip llodule No tamp bri nht Si mu l a t e Tri o posi ti on Cabinet SilHASSEMlli.Y C lamp bri nht .6 Place Reactor Trip terminals 1&2 18 VAC Module NO 2 switch in on Al-10-6 Reactor Tri p Modiile NO 2 lamp dim Operate posi ti on Cabi net SUBASSEMBI.Y 11 lamp dim .7 Place Reactor Trip terminals 162 loss of 118 VAC !!odule NO 1 swi tch in on Al-10-6 Reactor Trip Module NO 1 lamp bri ght Si mulate Tr! p post ti on Cabi net SilllASSEMill.Y A lamp 1,ri gh t .8 Place Reactor Trip cerni nals 162 118 VAC Module NO 3 swl tch in on Al-10-6 Reactor Trio Module NO 3 lamp dim Onorate post ti on Cabi net SUBASSEMHl.Y. C lamp dim .9 Place Reactor Tri p terminals 1&2 loss of 118 VAC Module NO 4 switch in on Al-10-6 Reactor Trio Module !!0 4 lanip bri nht i Simiilate Tri p posi ti on Cabi net SilllASSEMill Y D lamp bri ght .10 Place iteactor Trip terminals 162 118 VAC Module NO 1 sul tch in on Al-10-6 Reactor Trip Module NO I lamp dlm i Oper!ite position Cabinet SilHASSEMBl.Y A lamp dim .11 Place Reactor Trip terminals 162 loss of 118 VAC Module NO 3 switch in on Al-10-6 Reactor Trip Module NO 3 lamp bright Simulate Tri p post tion Cabinet SilBASSEMhl.Y C lamp bri stht .12 Place Reactor Trip termLnals 162 118 VAC Module NO 3 sul tch in on Al-10-6 Reactor Trip Module NO 3 lamp dim i operate posttion Cabinet SIIBASSEMlli.Y C lamp dim .13 Place Reactor Trip terminals 162 loss of 118 VAC Module NO 2 uwi tch in on Al-10-A lteact or Tri p Module No 2 lamp bri ght Simulate Tri p posiLion Cabi net Sill 1ASSI'Mnl.Y 11 lamp bri ght DATl' : I-108A-35 llev. 16 i
.11 REACTOR TRIP MODUl.E OUTPUT RELAY (Cont'd.) l VOM j ACTilAI. INSTRllCTIONS CONNECTION l EXPECTED val.IIE/ INDICATION val.IIE I N i l'l AI. .14 Place both Reactor Trip Terminals 1 & 2 Module NO 2 and NO 4 on Al-10-6 Breaker Trip _, Test No Breaker TrIi fQA_ l switches in Operate Verify: VerlIy: pt>s il l on. If a breaker CRD 480 VAC Breaker trip test was performed, A reset (118 VAC) 118 VAC have Operations grotp Reactor Trip Module reset CRD Fault, then REACTOR TRIP lamp N/A manually or remotely dim reset and close breakers. Cabinet BP.EAKER N/A If a breaker trip test TRIP lamp dim was not performed, have Annunciator ll2PSA Operations group reset
- 17 and #28 clear N/A CRD Fault.
CRD Power Supplies NOTE: Breakers cannot be Motor lamp illumi-reset remotely nated for System A N/A unless Groups 1 on CRD Control thru 7 In 1.imit . _ Panel nwitches are Reactor Trip Module No 2 lamp dim 4 { picked up. Reactor Trip Module NO 4 lamp dim Cabinet SilllASSEMill.Y 11 lamp dim 1.ock the cabinets and Cabinet SUl!ASSEMJ1LY l} lamp dim return keys to Shift Supervisor. Inform the f Control Haom Operator and ~-~ h Electrical Technician ? Dept, that I-108 Channel i A procedure is complete and that performance of SP 208.04A can he { initiated. PERFORMED BY DATE RlWIEWED BY DATE I-108A/ 36 Rev. 16 .~ m n
. -., :..; = .a 5
- 0,*J I "..'.?'..?. LO
T c.S'4
- SEg1A1, CALIERATION REMARKS mm3ER DATE
..,,.-.,...'T a... -W s. l =- / 1 I-108A-37 Rey, 9 - - _..}}