ML20137M300
| ML20137M300 | |
| Person / Time | |
|---|---|
| Site: | Clinton  |
| Issue date: | 04/16/1985 |
| From: | SARGENT & LUNDY, INC. |
| To: | |
| Shared Package | |
| ML20137M160 | List:
|
| References | |
| 19-BD-17, 19-BD-17-R, 19-BD-17-R00, NUDOCS 8601280236 | |
| Download: ML20137M300 (15) | |
Text
_ _ _ _ _
s Caics. Fo, Non-Class lE Resistors Used Caic. No. / h- 0 )- 19
- ARGENT kI. UNDY With Westinchouse V-4 Transducers Re. O Date d-M15' savowes=oo C'~
X
$4f erv-R elated Non-Saf ety-R eisted P ;e 1
of 15
- cic, Illinois Power Company Prepred by N l [lMMd l 0.i, [-/f"M h I/M lDateh-/)"-T[
P't'"
m4 % pcwe-s ta tie-t' nit 1 Reviewed hv Prot. No.
ac1c_go Ecuio No, yApicrg Aceroved by M<
-h l Dats -Ih"U'
{l RESPONSIBLE DIVISION - EPED FILE NO. 19-BD REVISION STATUS Pages 1 thru 15 (original Issue)
Re'rision 0, Cated 4 - /f _g y 3
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REVIEW METRDD l--
Revision 0
. Detail review of.3he entire analysis.
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f USCO NO!_LEb COPY c.
l i-PURPOSE 8
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3
.She purpose _.of. this. calculation is to show that the use of Non-Class lE a
g
__ _ resistors in-_the output.circui.ts of. Westinghouse Type V-4 transducers
- _ which.are. connected..to optical isolators, is acceptable.
. ASSUMPTION Since._the.. output of the transducer is.only wired to an optical isolator b hich..provides.a Non-Class lE output, the inaccuracy or loss of the
__transduc_er_.qutp.ut_ signal will have no eff ect on[saf ety.
l e
i i
- - -. ~ - -.
8601280236 860124
... ~ _.
PDR ADOCK 05000461 A
CMes For ' en-C la s s lE Resistors Used cme No i % -d -- / e m
/
j SARGENT s LUNDY l Osts % <, ;~>
With Westinchouse V-4 Transducer _t R ev.
0 eusmer=ou X l 9,,,,_ q, lated N
!Non-Lferv-Related c-e m hge 2 of 15 l
' C; ent T1*4-4=
M..n r* ~ a 3 Precared by
! Date Prore:t Clinton Power Station - Unit 1 Revewed by lDate Pron No.
4536-00 Ecaic No VARIOUS Accrewed by l 0ste ANALYSIS The sketch on page 4 shows the typical connection of a Westinghouse Type V-4 transducer to analog optical isolators furnished in panels 1H13-PS22, 1H13-P851 and lH13-P861.
The Non-Class 13 resistor is used to develop a voltage signal for the isolator since the output of the transducer is 0-LMAOC while the optical isolator requires a 0-10VOC input.
The resistor is assumed to fail by shorting, opening, or shorting to ground.
The effect. of the resistor failure on Class lE circui'try on the. input side of the transducer must be considered as well as the effect on the Class lE wiring contiguous to the wiring between the transducer and the isolator.
See attached telecon memo between Mr. E. Horn and J. S. Paniagas dated March 18, 1982 concerning open and short circuits on the I
transducer output side.
An open or short circuit on the output side will have no ef f ect on the transducer input side.
Also, see the I
attached descriptive catalog excerpts describing the amplifiers.
Specifically, note the description under " Operation".
The signal frcm the pulse generators passes through an amplifier to convert it to a " load-independent" (constant current) output.
Therefore, there c
1 is no effect on the input from open or short circuits on the output 8
side.
Also note " Amplifier Protective Circuit" and " Surge Withstand a
.j Capability".
i s
, The wiring between the resistor and the optical isolator would not be affected by the 1) shorting out of the resistor since the transducers ~are rated to handle O to 10,000 ohms output load nor by the 21 open circuiting of-the resistor since the output of the transducer would see a 200,000 ohm input impedance of the optical isolator (see attached 7PR No.147) which would limit the voltage across the optical isolator input to 200 volts (1 X 10-3 amp x 200 x'10 ohms 3
200 volt).
The safety-related panel wiring is rated 300 volts and
=
l Cales For Non-Class lE Resistors Used Cafe.NoI4~h)-/h C*ARG ENT '- LUf DY With Westinghouse V-4 Transducers R ev 0
! Date2- /c c ~
a N oiN eesist.,
j g
g c-caso X l Lfet,-Re:sted
' Non-Lf ety-R elated hee 3 et 15 C:>ent Illinois ?cwer Comnany P ecarto by lDate Preiect clint 3 power st3 tion - Unit i Revaed bv l Date Pra No-4536-00 E:ui: No. VARIOUS Amo.oved tv Date ANALYSIS (CONTINUED) therefore, the 200 volts imposed on the transducer to isolator wiring will present no ha:ard to contiguous safety-related wiring.
CONCLUSION The use of a Non-Class lE resistor in Westinghouse V-t transducer-to-optical isolator circuits is acceptable.
~
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caic. No. Il-M - 1 f I
Cala For Non-Class lE Resistors-Used i
W GE.W k M DY with westinghouse v-4 Transducers R,,. o loate4_f6_A--
cur.%: emet X l Safetv-Related C~C
Non-Safety-Reisted Pge 4 of 15 C: eet 211incis Power C.0any Rwed hv Date p,,,,n Clinton Pcwer Station - Unit 1 9eviewed hv l Date Proi. No.
4536-00 Ecuia No. VARIOUS Approved by l 0ste
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. PS;fph3 g-. / f-SARGENT &
LUNDY MEMORANDUM 0F
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f g /f TELEPHONE CONVERSATION hpO g &-O hp
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.ud i
EEVISICN O
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Date?
March 19'1902_
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Person Called:
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Wa = H n9 m" m a (Name)
(Company)
Person Ca !ing-3-
S-Pa"*aguas of sa gan* s Lu->*y (Na:ne)
(Company)
Project:
M in'en Project No.
45'#-60 l
Subject Discussed:
Na**4"?h*"ma t'- d Na
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Summary of Discussien, Decisions and Commit =ests:
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sene' csoCes s'e used to eSta'9 a ':* C m ?-
prover s y stC" ' 0 oC out.%t si;a a.s p* conn ing f or ConvC nsf *%Ce nn serVUng q.pn a:IC 19 e t'.e C o*T* C* 19 e 'e a *?'* e 20 *C' e'ature taftveate w.tkost resC * * *. In the o9esatavsir e 0.tput r:'ae ty cheages m.th convertble Pe=' Supoly 8es:stor thef mestor com:tasaf to9 s:nemes f
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- e C% t:6.t s c ai be Ju=:e's a*g suppd. econ Lhe te*H9al bloct transcwee's Cooc te" nee'at.re p*C,r"P.4 9ce utWred by ccmpste's. coa"o sac cate sys-of es % trans*Juter to cCnne;t the powef sup -
es cesignec en, and nCl compensaica en tems or by ama ces or ci;da' est'uments ply scure. to the meesurec potentia? trans-formee encast With pmpers remowec the A4,iustm ents Tne wa. tre-sc.:e s s',ide*tif.ec as tce traasewee r ay Se ope'ated frome ser-arete a
Moce.s are swa. tare w t* bet % 3 = SC'e enc a yp4 8s5 aad!*e.ar treessw:e*s as tpe contro.powe* sour:e Thas only one stVe W4446 O-110% output ac ust eat c aost-tv. Be-tiaascwce' neec be used to serve bcth func-em,se of the grage of am hf e usec si t.at not tional t eqWr ement s.
Cre'at;on been recessary to I.r9it tee et;. straeet remp, Te ese trea scote's e"nofov t* e : -,-d'vis on,
b o cer to ma.nta.n a rcat: spic ac:w's:y et Ampuf'ee Peetective Cirtutt thelow eac The car.e'abem cort o es a olbpbc s'. a Dr.ac+e T* e ~ e aswring cr'.
The out;ut a 9chf e' is Os otected from ca"$-
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(witry ;ea.e a'e s a t rein O' CV ses ** nose a ;e c e tc ic ec,gs*etpy apohec voltages or. top of the Ctse Any e.'eme*lt tromnoep 3*c hee;nt es prC0o"<C*al to Cwrre*! e*C whose er.cw ec s.'ges on the ou?Dut 3eacs The amD-DPast shift.ng aC;ust9e*!s are at:tss t'e lea;th is O'C:Da o*a!It* wC*ta;e The s'ee of I.'.or can withste%c the 30phcation 4 cross as from the outsace of %e case Irese are L,en:
es:% p.'sc is s'::on.onai tc tSe power f!ow-t M
te'm'me's =f a swige eqwvaient to the SWC
.ng is.n i c c. avon o' ee:= poise There type ec,us:ments These tremraers are ac;es.
test. anc tma short+me tscoroomstev 5 a.ble f rom the top en.at trarsesee s ano tne a e re.any evses pee eye:e Wep st.ng these m.nutes' a:phe stion cs 123 voits sc en the bottom.o var trease.ce's inasmucwestne pass.the e'c e v.e.cs a re'e of f:ow of power The :iecw.? y presamts t+s in the form ev ent of m,s. wiring.
mutt pl ee circuit Pas e re oth e'v %;M cutout.
i cf a propo t.0 a' c: s. gnat Radio Frecuency By Pass no reto ecjustmeat is e.er ee:es sa'w Th s is The s. gas':s ;assec throug% a empf.f'er to Each trans swee' contains cy pess cireuary to in contrest to the Halltype wnica, c;as resu re a tero sco.s:er beca.se 1%e to-owlewt o' ee give t$e cev.:e a re'ativvev h.g% irrir unity to Halicircur.ry necessitates a h.gn gam s no-cor. ca' n = a 3:aconce;encent sc:ast a nt-ra c.o ft equ eacy int erierence (Ms).
lef.er, cuir ent) o.tswt.
Modular Design Surge W;thstand CapabWty (SWC)
.scw:e s are a.mPar to t*e watt t ans.
Tr e ;a se r epr es ents (Se best poss!bte com.
Esper encein the appo:stion of scho state
. este:t t*st !Me pcteat af s s's s%sf'ec 6.
w'by raeaas o' a ntem at R C eetwort p':, mise te* nee 9 the recurrements of the ver. cevices tc powe* system ::atro' cirew 5 Pas sous mount.ng rrethocsnormouy uses.
snown the need forintegras s.rge protee*.on Festores cucurtry. Tha m stor concern na s teem in the a) UMstrut e*annel.
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protection of sol.c state protect ve re'ev s Westaag$ouse is s ~a or s.cohe of he ep-b) Standarc re ey eadpanels.
from camage or f9aHunct.on uncer erams ent para us and t e syste'm *Ncn ce ntra' e'e:
c) Staacarc rach u.3rt mounting strip.
surge conc.tions Re'ar eag.eee s neve tr.:a oc*er erste~s Teev are c: sec c 9t'v.
d) P*e crifiec cSannel adoptec SWC ape:if.catioa in IE E E $;anced I
r espe:.a"y kr:a ec;eto e of t*e a:t at riecos e) Pre-cr nec panei.
t 4721974 (ANSA C37.90s.13748 in the access:r.es for men eystems.
l TIrne Division Mu't?p'*e The bes:c raoduie is 1%1nches w;ce end uses la desigsag the V-4 transdwee s Wetting-l r
i Th s cerewitri emp.cn co oie eatsry MOS 5% inch weet.:si destanca t>etween mounting house was ac4 to casa upon the krew,. edge c g' tat eteg'ates circu.ts for su;er.or accu-he'es as s.;;ettoc ey en #E EE proposec of ris stat.c re ey ces gn anc e:p8.canc,n ea-i ra.y,8.ne ar.tv s-c staourty.
stancarc Watt and Varsreascocers are made Gineers in so comg it te:eme es:. rent inat In mocutes (3 in: hest weh the same 5% inch the retay SWC ::ectf. cat.on w as noi corn-Pr;ntec Cirewit Coastruct on mounting c mension. The horaontal holes pretery esecuate as a staada'.t:hing ciecuit c for trense c-Art compontats are mounres on printed c"*
are areaaged so that aa, arrey of transcu:ers ers. Retavs term.nate in a s*
can be mounted sece Dy e.ce w th pre-crdled wh*le transcocers term.na:e.e a prec s.on cuit tos'es of a g'ess<pesy Tnis matenat mount.ng Mc.es ort th esch cente's if reca amphher of m chlowe* cs:sc ty fun;.s g*o 'apcssesses g eat sveas:n. et cces not support unit mount.ng sta o is used there will be e 4 cannot tore':te e tean s.ent wn.:aa su.c u
8 e'e vs
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et >as a h.;m res stance to or % incm scace De* ween units. A 19 inch rect cause a fa'se trio whde a t'anscweer owsout F
comage c.e to a re soscering of part.s cw m.1 wilt mount a fel set of we<t. var vcftage anc may be mornentarity a"ected so long as the e
resa. or rnos.f. cat.onvacer f.eis conc t.ons.
At; cir:wir 2:a'cs see acesst b.e for re: sir.
current tramoc.cers for a three phase hrse unst is not comages.
Th's is es:e: a 4.r Dor".ast in the :ste of stu.
(see Page 18 The e es nointeraction bete,een l
i peae'swppa a ; a ph'.e*
- a c **ach is t.ense,ce,s regasc'es6 of mount.ng space.
The IEEE standarc cef.aes the tes' wa.. enc I
locates the test poets on a re:a r. West eg
{
esposed to ester a:!y-cawsec camage from 4 t * *** urg.uwstautc se e::4ema' r+s::-me:t.oe 1: seur:es devo.g house has aceptec the same test
- ave 3.t has defines tne a:pbcation Oc.ats in teen s of the :e ve' o' th e.nh er ent ar et e: tor e circuitr y Teemin al ! toc k s t
a transcoce'. ra saing cc s.n t* s: ar ot4ai Voicec term.r si Otocks w.th 88 32 screws t.o eress are testec ead tnat the tests. as pet.
accept w.re uses up to ar12.rilugs to %
formec, are vehc.
wricttk The Surge Withstand Test which s*t West.ng-
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house V-4. 60 Na tran scwes's eeli meet es:
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- 1. SWC Test Wavet An coen circu.t ose Pat-ory weve.1.C to 1.t MHz. 2 5 t0 3 0 r". veel veh.,e of the f rst hatt cycle rs Je ce.sy.nq to i
$C*4 of (fie enet.3. cet at balw9 en G C rrWW seconca ot toriger Surge geaerato' twemina8
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Extreme Ln'twences (Percent o' Aated CF.npvtt at tSe es:e c'ett een t'sa JO tests pe. secone w a-Trsmstscer Type VP4-844 Current Liaea'iry, ty net less t sa 2 0 se:c 'Js var Traan:weer Type VV4 846 010A 0.3%
2.E.e m en t For 3-chase. 3 wire Voha;e Lineenty.
2 Test Pro:,. e The.raase.ce* s te'W.-
2%.E:e aeat For 3-phase. 4 wire G 140V(.th eatemat e a.e:.at: e res co
- a. a va%e ec a' to tne leewt.'.at svars power s coly to r
..,mp rare va: es stance cons. tion-2 E;ement 1000 emphi.e4 3 1%
0 Sw ge vo'ta;e is tv ecpoec 2% Element 1500.
Power Factor 141 e
Input Corrent. ac SA at Serween case sad pcwe s. coly to all incu. Vc tage et 12W tag or lead Wett 2 2%
0 otmer a: ter m. mars 1.ec tog etner, legut Fr e:wency v 60 Hz Ver
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O Aput current. de 021mA Temperature. -20 to b' Set een case ams eac% d: oi.tput term OstputLead
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R es,s ta nee 010.000 Ohms e 10% Cat. Adl.
Linepe tv at Re erence Typica!
2025%
r c; Bevee. ea:n a:imowt term..a! and esc %
Concit.e-s (stated as a Ma nimum
- 0.5 %
c: owtos.t te m.nal percent of rs'ed output) 3 1% man.
0110% Cat. Adi.
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R efer ence Cond i.ons:
Typ=ca; 2 5%
0 J
c1 Ber*e em es:= se cec.1 e:errect and every sne.t Cu rent 045A Maismum
- 1.0%
r o+er se cec : e:ement Te persture 23'C -
Frequency Power Factor 1.0 Wari 60:10 He
- 0.1%
el Acecss the oc owtput-laput Voltage 12W Var 60:0.1 Hr 2 15 %
0 F recuency 60 Hz Cur rent Was eform The tr amseste* :s cors.ccec to dave se s sed Lose
$000 ohme 0 40 %
t*e test af et cca.t.m es to ope' ate normally pg,, Suppty 120 V Th;rd Harmonic w
w tm no c aage in cabbiatton.
Operanng Accuracy Content.Wat:a Only :.25%
i (Uncer c;e'ating condL A nuracy 1.ons state as a percent Other Operating CSaractenstics T. e li semv ef tme V.4 wa. mac Va trans-of ratec output!
Output Ao.ustment
- 1C%
g cw:e s is 0 ". a: re'erem:e coacit.:as (Tmes wit %. iCN CaCbr1p-Opt.onal Output nmet.m s es'erres to es 01% a::ureev-t.on Sange
- tc.S%
Adtw ster:ent 0 110 %
e ity. twt tm s is a c: ae:Iam wh :5 can W.th 0110% CaGbra-R pp!e(pcat to-peat
. 2 s e a:..,;;. T.*e V.est.agnewse t na scuc*
t.cr. R nege 10.6%
of rsted outout) 1.0%
e s are ra*.: at tne r c e'st.ng a::w ary of Coerat.ng Concrtions:
Response Time fio 1
e l
0 5'. wr..:n en:'wces tme satire ram;e cf sY leput Current 0-4.5A 39% of roec outputj 400 m ses cc.mDMat.ccs of infiwences we.:$ m.get Tempereture 23:1.T'C Power Supp+y 85-135V. 50-400 H reasonan'y tre espectec en a:twai se nce.
pg.,r Factor Any input Vott age 75132V Burden Loa; To ra Stab.iky Freqwency Watt 21 He Cwrt ent C'ercuit 0 2VA at 1.0 PF A s as...ty cf atleas 0 25% per yeeris ent c;.
Var
+ 07 Hz Potent.ee C rcu t O 3VA at 0.5 PF
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nated Lsie oa es:e ence w.tn s.mne cir-Lead 010.000 ohme Pcwor Supp y 4VA at 0.75 PF cw.te a a.:p m. s es cata on components.
P:wer Swopty 85135V r
3rd Hermonic Consent 0 3%
Withstand Capabaty Storage Tempe' cure -40 to 100 C Os ortosd. Current 10A ccmbnuous 250 A 1 sec*st CWload Voftsge 150V continuous I
D.eiectsac Test 1500V
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"* g Surge IEEE Si1472 9974 a
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Output 12*V se 5 %n.
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A;;Gcation Printed Circuh Construction The Sarge Withstsac Test *+ : ; : -Nesar g.
Tree V4 vo:tage an: c rre-::;aasda:e s Ali cv poreats are me ntec on ermicc cir-house bs SO M: trans.:e's...; rnee:is ceaser tae c.::st c' pcteat.a a s*:-e's cwt tea es oi; ass-epesy Th.s mate' al cos-aac :urrea t a s':~e's to ;'::ema' c:
sesses g eat strength;it cees not sw: peat t SWC Test Wave-An es:Ms::ry v. a.c 10 s ; 3 s Tr.e e.t:a: ca9 te t :e: cve::4 cy Nag.s g* *tn. :: has a h.;9 res:s a :e to to 15'.1Ha. 2 5 tc 3 : G : es: va e : tee f.rs:
co wie's c:at's are :::a s,s: ems er by ca-age c.e to re-so ce eng of parts cu +g herf-crcle pean ce:sven; to 50*. of : e. nit.at r
r ana':; or c ; ta' ins:r wmea:s re:se or m:cif.:st.on uacer f.e:cM:ond :!cns crest valve in 6 0 rme csec:ecs c' tea;c.
The cW:u:t boarc is resc;;y accessee venen Swr;e Gene'ater term. a. imee=sa:e 15:
The ty:e V-.1 we': age aac :w~ eat t*aasa.:ers the : ver has been removed ohms Test waves are a :-e: et tae rate of re::a:e "Te ees: cr" treast e s **,ch net less than 50 tests per seconc f:.r nct sees wcre entroc.:e: => V.est.n; ::.se m 1!!! to Swrge Withstand Capability (SWC) than 2 C seconcs-y:e.c n;;*e c.:: t leve s Nan 3.adat.e frem E=:er.or:e in the a :..:st.cn of soi.c-state t*e t'en use:: eW c:nve e's kne tre cevices to ::*e's> stem control c't:w:ts has
- 2. Test Procedure; The t easduce'is term-Te'e:we:o' tPe Vt-4 aae the Vf 4 transcw:e's snewn :*e ree: for in;eg ai surge p'oiection eatec mto e res stor w th a wa+e ecsai to tae are eve age res;ondm; cev.ces E.e::rica; cites't'y The ma cr concern has been in the maemum ratedlose res staa:e Tae p:v er
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pc*e' r9eas.*e ents s'e
- arc en a9 res orete:: ion e'sohd s ate cro'act *e re'ays s.:C'y 's ere'; led th'oug* an ss.atir.;
J tas s se tha t'aas:.ce's are ta : ated as.
frem da age ce r"a'N9c"> n uncer.traasient traas' ortner so tha :ta ttaas:wcer is.n s.m,; a pe'de:: s ne wave ia: :. fc a f a-m sw ;e c:ac.:ns :EEE S.ar.Jarc 4721574 c erat.n; concitico Swr;e sc:tage is thea factor of 111 :ev at c s from :.re see a ANSI C39 9:e 19742 ceve's the sve;e test.nc 8L he8-w eve reswit.n; 8r09 harmo'.cs of Ch: 09c of prote:: we re.ays.
naves *'h 'es.': n ce viat n f:cm r*$ cut-al Setween case end es " aC input torn aal pa t.
In gesig ing the V-4 trensduce's Westing-inciud ng power suppiy.
he.se was able to draw UOon the acusaced IheIcaf ir%ce:e"Jent '6atw e se es these A*ow;edje Of ris s'atic rel#Y design enc ap-D! Be!*een Case a*3 each cc output ter-r traFsjsbe's :a!..larly sut3 Die f0r re9 te Dbta;.on eng. nee's. In 30 coing it be:ame min al.
irs: s eatat :m serw:s *ne e t e c.r: sit re-e:: vent that the re av SWC sc.ecifiest.on e
s.s am:e e,tme.s.a an:*a er s.t.e:t to was r et comotete'v edeouate as e stancerc et Between eoch ac iacut te mana'and each chaa;e ': ei.:s i: g. s au-gau;e leacs f:r trarseuce's. I Aetays te'minate in a s etch-c: o ut;at terminal betwee-tra s: wee ame reacowt in; c rewi We traascuciers terminate m a
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pre: s.on amphf.ee of much lower :a:acity.)
d) Ber*een each ac :r:wt e e ent and every st;cn other a: cir:wt e<ernent.
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...n traasc.:e' coat's s Of a m irout trans.
The IEEE s*andare cef;nes the test was e and forme' to prc :e scianon from rne ees-
- ocates t*e tes: Ocmts en a relay Westing-e) Across the cc output.
urec circu t. sec a f a'l wave c oce bod;e to house has sc:Dte3 the sarr.e tes* waire cut rec'fy the a: s.gaat TPe s.; aiis a m:6f.ed in has gef.ree the appbcation Domts in terms of The trensdsce* is coesidered to h ave pa ssed a "censtant cstreet" a chf.e't: tac outpat a tr eascsce'. ra aung certain that all critical the test if it cor tinues to ccer ste nortnalty level of C-1 mA.nto 0-: W,0 "Ps There.s a a*ess are tested anc that the tests, as per.
vvith no change in canbration.
PCte".!'o*eter in the e phf e' Circurt to ger-f0*raec. are vshc.
mt! a rea;e ac.st eat of -105..
o Fe a tures Wes*.aghousC es 9 *a'Cr sacche' of he 3D-t para!ss and the syste s wench c:atro' eiec-tr.ca' p**e'systeras Itey are C:ase.ently, esDet ally haCwie:Ges: e f the ativa Fee:s in the accesi:r'es fo'ssc* st stems T*is is ref'ec;ec m the :es.;- festares cf the V-4
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age c.e te as:.e e n a:f e:ve : ages e, Esp hesaucer Cw rent besheer inc.,:e ss ;cs ca t e e. :s:'eads ?re a o-Tyce VE4441 Type Vl4 841 lif.e :a *.tes:.a r*e at?' :a : a:ress :ts te*m na s f a s. ;. e:..a eet to *e S WC F." Sca!e Inout 15W 5A tes:. an: taesaon t e :a::r:mira.ateev 5
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+0 5% at 23 C. 50 Hr rectes, a;;F:st.:.. Of 1 0 vc.:s a:in 19e Lin e a * @
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e,emt of r sairing Overload 0E%
150V coatmucus ICA continuous Rad;c Fre:ueac) fete 8ev en ce (RFi)
Ful S:a'e Cwtout Ir.A cc 1m A de 100A 1 sec.
im munity OutputLoss 0-10.000 chms 010.0C0 chms The tra-se.:e s by t e mats'e of ?*eir cireurt ?da M e % 4 W
W des.ga. pre P0t f Me:?*f b stray ra:60 fre.
p g. g g.g,g, Freavemey 50-70 H:
50-70 H Am;r '.e Power Selt powered Seff.g:werec e
Corrent Amprfie, Less (So deal 2SVA 1.0VA r
The a :' '.e sses t*e v a.at.on of:*e Te ;e a?.re Range.
-27Cto.6C*C
-20*C to -!TC em:te d:6e cir:s.:: - cerv a Own es I' N 8I"*' # **'C'
- "*C'"manimum a "curre-t p.r93~. Tr,s :: f garance a..cws
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the a :!.f.er to te ir:e:enceat cca: res s-Reso ase 7;me Te?perstwre range Temperature Lessthan ATms Less than 4%ms ta9ce The a ;i.' e s se '.; *e+ed (fr:m the Cal. ora.cn A3;us: nent
- 10 %
sow ce tete; easureti 0 esctric Test
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r 1500v rms 150CV rma Sorge W t* stanc Capodihty tEEE 4721974 ANSI IEEE 472197A ANS!
Modsfer Cesign C33Sa The case e: eseats t'e tes :essWe c: n-We;ght C39 Sa pr:~se me?*eea tne e:..t ements of:9e var-
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- s. L5 kg) 2 Bs. M kg) ious mos.t..; et*c:s ectr any wses:
Shipping 1% !bs. t.5 kg) 2 fSs. t.9 kg) a) Va:st u*: cranret h) Stanca c re'ay ra:t pa e s.
c.' S:a ca : ra:k u,1 r c.ed.9; sing.
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The bas;c rascJe fo the V t traasc :er fine is 3 in:hes wice and uses the 5% each ve t, cal d stam:e Oe?*eem moor.t mg hc'es as sug-gested by ar IEEE ; roc:se: s:ance c Car-rem aad verta;e t*aas:.ce s are ace.n ha:f moc. es (1%. net w in the sa e 5%
inch m:wnting e.r eas. n. The her.roatat holes are arraage: so tP ar say a rav cf trans.
dwce's cd9 te r90unted s:de ty s.de witn D e-drined mown:.eg holes on t b each cen-ters. If ra:k uht mou ; ag sti;c is t. sed there r
will be a % or %.nc* s:a:e betweeawaits A 19.;n:h ra:t wd! 0 et a u;I set C' *att. ver, r
WC!:sge sac c.f rent treas0. e s f 3r a t*1ree-pense line The e is ac e.te a:?.ca tetween a
transasco s regar !ess c'mo ntin; seace.
i Terminal!!ocks Mo+def ter%na! Ofocks w I
6 s 9 3* sc ?*s to ecce:' wire s.tes u; to e 17,e y;s :s h" wictri.
l R ep air ability
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I Wesbeg*:.se mas eeve* pcted ria traasdse-ers. Ac:essGai tv f or 'e0a# cr r90cifiC4 en has been a feat.re :8 Westra ghewse trams-Ce's since t989 TPe V 4 tra*scocers con-
%.oue IP.e tradit.cn cf ease c'ge ts reef ace.
meet Curre9t am ver: age traa ew.ce s u%:e s
only dia: rete cc.m poneats seicered in p:a:e W
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?;ovember 29, 1980
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l The Indicators (and Isclators) en the attached sheets will read l
g5'. Icm cue to an incorrect resist or si::e.
S&L designed resistor strings c:ntain a SK(10K) ohn resistor ~that is driven by a 0-1 n A:p signal.
Tne indicater is then driven by the voltage developed across this resistor.
S&L neglected the loading effect of the indicator /
3 isciatcr (10 CI: oh./200R ohn) which results in an inaccuracy cf 4.764.
Th:s is in addition to the 2% accuracy of the indicator.
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11 REC;.u.NIN. :.u a_xu'!!cN 5 (1)
SCL Replace the 5K/10K ohn resistors in the resistor string with cne that will cc:.pensate for the loading ef fect of th: indicater/
isolater.
(2)
S&L Review their enti're design to verify that other instances, j
such as this, de net occur iti other systems.
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fg.g/b Indicator /Iselater Indiestor/!solater Function Data Sheet DF.x!Ng E02-1AP12-014 1CO-AP614A Bus lET4-4KV Bus 191 Amps MD020 E02-1AP12-014 1UO-AP614B Dus lET4-4KV Sus 131 Watts MD020 Bus 1RT6-6.9KV Bus 13 Watts EI 052A E02-1AP12-017 lJ:-AP826 E02-1AP12-017 lII-APS28A Bus 1RT6-5.9KV Bus is A:.ps EI 052A E02-1AP12-017 1JI-APS23 UATlB-6.9KV Bus 13 Watts EI 052A E02-1AP12-017 lII-AP825A UATIS-6.9KV Bus 13 Amps EI C52A EI 0523 E02-1AP12-018 III-AP990 Aux. Trans 1M Amps
'*2B E02-1AP12-013 III-AP873 Aux. Trans 1E Amps r.
EI 052L E02-1AP12-OlS III-APS61 Aux.. Trans II Amps EI 052B E02-1AP12-OlS III-AP853 Aux. Trans 1G Amps EI 0523 E02-1AP12-01S III-APS69 Aux. Trans 1K Amps EI 052A E02-1AP12-CIS III-AP415 Aux. Trans F Amps EI 0523 E02-1AP12-L18 III-AP940 A 2x. Trans N Amps MD020 E02-1AP12-019 1CO-AP619A DGlA Watts MD020 E02-1AP12-019 1UC-AP6193 DOlA Vars MD020 E02-1AP12-019 1UC-AP619C DCIA Amps MD020 E02-1AP12-C20 1U'0-APG203 DGlB Watts MD020
\\ E02-1AP12-020 1UO-APS20C DGiB Vars MD020 E02-1AP12-020 1U0 AP620D DGlD Amps EI 0533 E02-1AP12-027 lII-AP979 Aux. Trans Q Amps EI 053A E02-1AP12-027 lII-AP753 Aux. Trans I Amps EI 053A E02-1AP12-027 lII-AP415 Aux. Trans G Anps EI 053A E02-1AP12-027 III-AP418 Aux. Trans K Amps EI 053A E02-1AP12-028 lII-AP417 Aux. Trans J Amps EI 0533 E02-1AP12-028 lII-AP982 Aux. Trans R Amps EI 053A E02-1AP12-028 lII-AP749 Aux. Trans H Amps EI 053A E02-1AP12-028 lII-AP759 -
Aux. Trans L Amps EI 052A E02-1AP12-030 111-AP738 Aux. Trans C Amps
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l E02-1AP12-030 lII-APS70 Aux. Trans O Amps
-EI 0523 l
E02-1AP12-030 lII-AP974 Aux. Trans P Amps EI 0523 E02-1AP12-030 lII-AP419 Aux. Trans-D Amps 1
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f Indicator / Isolator DF. AWING Indicater/Isolater Function Data Sheet E02-1AP12-001 IJI-MPSO4 Generator Gross MW EI 009A E02-1AP12-001 LEY-MPS23 Generator Gross MW MDB27L l
E02-1AP12-001 1JI-MP805 Generator Gross MVAR EI 009A l
E02-1AP12-004 III-AP889A UATlA-4KV Bus lA Amps EIO53B l
E02-1AP12-004 lJI-AP891 UATIA-4KV Bus lA Watts EI 053A E02-1AP12-004 III-APB93A Bus 1RT4-4KV Bus,lA Amps EI 053A E02-1AP12-006 IJI-A?894 Bus 1RT4-4KV Bus lA Wat'ts EI 053B E02-1AP12-006 lII-AP901A Bun 1RT4-4KV Bus 1B Amps EI 0533 E02-1AP12-006 1JI-AP903
_ Bun,1RT4-4KV Bus 1B Watts EI 053B Edh~khb~b kh!-kb bbkb
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E02-1AP12-007 lII-AP805A RAT 1 Amps EI 051F E02-1AP12-008 lII-AP807A-ERAT Amps EI 051F E02-1AP12-0C3 IJI-APB10 UATlA-6KV Bus lA Watts EI 052A E02-1AP12-009 lII-APS12A UAT1A-6KV Bus IA Amps EI 052A E02-1AP12-009 IJI-APB15 Bus IRT6-6KV Bus lA Watts EI 052A E02-1AP12-009 lII-AP817A Bus 1RT6-6KV Bus lA Amps EI 052A
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E02-1AP12-010 lII-AP743 Aux. Trans E. Amps EI 052A i
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'E02-1AP12-010 l!I-AP936 Aux. Trans M Amps EI 052B E02-1AP12-010 lII-AP865 Aux. Trans 1J Amps EI 0523 E02-1AP12-010 lII-AP849 Aux. Trans IF Amps EI 052B E02-1AP12-010 lII-APB57 Aux. Trans lH Amps EI 052B E02-1AP12-010 lI.I-AP845 Aux. Trans 1D Amps EI 052A E02-1AP12-010 lII-AP985 Aux. Trans lL A=ps EI 052B E02-1AP12-Oli 1UO-AP611A 4KV Bus lAl Volts MD020 E02-1AP12-Oll III-AP762A Bus 1RT4-4KV Bus lAl Amps EI 0143 E02-1AP12-Oll III-APS33 Aux. Trans. lA Amps EI 014B E02-1AP12-Oll III-AP703 Aux. Trans A Amps EI 014B E02-1AP12-012 1UO-AP612A Bus lET4-4KV Bus lAl Amps MD020 E02-1AP12-012 1UO-APG12B Bus 1ET4-4KV Bus lAl Watts MD020 E02-1AP12-013 100-AP613A 4KV Bus 1B1 Volts MD020
,3 E02-1AP12-013 III-AP770A Bus 1RT4-4KV Dus 131 Amps EI 015B E02-1AP12-013 lII-APB37 Aux. Trans 13 Amps EI 015B l
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E02-1AP12-013 III-AP709 Aux. Trans B Amps
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