RCA423

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eS SOLID STATE INC. POWER TRANSISTORS<br>| 46BLOOMFIEL FARRAN D , STREET NEW JERSEY 07003 www.solidstateinc.com RCA413, RCA423, RCA431<br>High-Voltage,. High-Power. Features:a Maximum safe-area-of-operation curves<br>SiliconHH N-P-N Power TransistorsH = Low Saturationre voltage:9<br>VcE(sat)=0.8 V (max.)<br>ForMilitary,wie SwitchingIndustrial,and. Linearand CommercialApplicationsP Equipmentin. Veneto? RCAACE(Sat)=0. V ( m ax.e ,<br>= High voltage rating: VCEO(SusS)=325 V<br># High dissipation rating: P7=125 W<br>The RCA413, RCA423, and RCA431 are switching regulators, high-voltage bridge<br>epitaxial silicon n-p-n transistors utilizing a amplifiers, ignition circuits, and other high-<br>multiple-emitter-site structure. voltage switching applications. TERMINAL DESIGNATIONS<br>The transistors feature high breakdown- The RCA413, RCA423, and RCA431<br>voltage ratings and low saturation-voltage transistors are supplied in steel JEDEC TO- c<br>values, making them especially suitable for 204MA hermetic packages. E (FLANGE)<br>use in inverters, deflection circuits,<br>6)<br><2<br>8<br>MAXIMUM RATINGS, Absolute-Maximum Values: szcs-27si0<br>otaoS 400 v<br>VCEO(SUS).- oe ene etter tenet n etna<br>a JEDEC TO-204MA<br>PT<br>TC UP 10 25°C eee ece ee eteeette terete erect rttneteeneeteeeeeenes 125 W<br>Tc above 25°C, derate linearly......... 006.<br>Tstge [Ty] [cee] [cc][ eect] een ener eer terete eee eeee es sne ss “650.714to +200°C WIP :z HeePORTION OFeeeMAXIMUM OPERLTINGMor eBAREAEE an]: To|<br>TL zsE28 CURVESSPECIFIEDDO NOTVALUEDERATEFOR THEI, MAX toc:siet<br>Atseating distancei plane > for1/32 10Sin. (0.8max. mm)0.0...from ieee cece ete ent ett e eee eens 1 230°Ce pieI\oo2ae5 eee=a PesT=Pee Po Pe]<br>JEP: 38 rf Ws,NSE Uae fae<br>Sse egih nities Goin ghee aa 3 pl RS=ESIEH Rng mnnneaged FESR TS shat rinneee eet Zoe | Pones srinpi ws<br>108 essenSoe an eaeae Besee ee eeeee Se a enSegre eratea Se CASE TEMPERATURE (Tc) — °C 9205-19296<br>of iene cournuous ie acai TUTE — |<br>1 Py ses ed ce ed eae ee ae ERs HB i Fig. 2 — Dissipation and current derating curves.<br>, eaEe AS.| a<br>H “TSHREE pc OPERATION [EEN a = puse<br>raZzPo Graes2 DISSIPATION-ison boamytous te a Bb LIMITED epeeeng poe Soni tient-F2 aepanes {\ i rmtes] ,1s .<br>ae Sacer ae see Se ecco Seg GeerteelSU 7 Ore<br>O 6peeHTS PEEEEtee RUTH eeeeetitettet eesSeeWRITE Ee TES EEL] womizonpur ts. Hen:  Weex tome)<br>oOPw “| CASEi(CURVES TEMPERATURE(Te)+25°CMUST BE DERATED ftir]ESSSWI lees, Sele EU ONUT grea ere (vr MOEA” | mba cvostage<br>3 F aN Er @ TEST 2n 3585 (ve ¢g7 4COv!<br>8 if LINEARLY WITH INCREASE eo SER Nees Eeeaeee Us (ry<br>FP IN TEMPERATURE) tees hia Reese peste 1 |<br>eee see (eee eeelll Se<br>” g bess See eet Sade oe See 0 iit P<br>86 Easy] FORNONREPETITIVESINGLE ERE[Loh SSSiistrtrataattrt SEH |ieeravere!teretiriqanhesra SereeedyPrater oj CLUOOEL GRE no HGP: 2034. O<br>Putse fe EEN a 1 | ] on eouivacens<br>ese eeaS ar ts<br>ee ees 2 H Se TE Se ELL SEN He EE Hon o—O<br>See ee See Veg yiMAxl: 325V { RCAS23RCA413 HE Fe bay:EB Lu > sy60<br>oo sel eset pel cep ere de<br>1 2 4 6 8 10 2 4 6 8 100 2 4 6 8 O00<br>COLLECTOR-TO-EMITTER VOLTAGE (Vc_e)— ¥ 92C$- mzs0R1<br>92CM- 33224<br>**----- End of picture text -----**<br>


Fig. 1 — Maximum operating areas. 

Fig. 3 - Circuit used to measure sustaining voltage, VCEO(suS). 

## POWER TRANSISTORS —W 

## RCA413, RCA423, RCA431 

ELECTRICAL CHARACTERISTICS, Case Temperature (TC)=25°C Unless Otherwise Specitied 

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ELECTRICAL CHARACTERISTICS, Case Temperature (TC)=25°C Unless Otherwise «€ 4 Veegtsual<br>Specitied I<br>Test Conditions [mits 7<br>Characteristic 8<br>Symbol Voltage (V) c4<br>°<br>VOLTAGE (vce) —V<br>ICEV . mA Pree yer<br>(To=125°C)<br>7=Zo A AS5 = 0.58SSee20 ee Fig. 4 - Oscilloscope display for measurement o!<br>5 1a 15 sustaining voltage (test circuit shown<br>hee 5 2.58 _ in Fig. 3).<br>5 3.54 _<br>VcEo(sus)® > > 3.5 couLecron- Wo guirtER VOLTAGE (vce) 3¥ Hi |<br>eres 0.58] 3ao | Sa| eS: Uimmte1<br>Vpe(sat) 0.05 Fees + — 4 iy<br>oe ge i fase | Hes<br>ca bot 4 1) 35<br>2.54] 0.5 3 1 wt 1 NV i] és:<br>VcE 0.58] 0.05 = eee} t BAN test<br> (sat) 1a | oo. - es | | . |: ll wi!<br>Is/p Pulse 2.54] 0.5 07 ef5 os Sos pope| “TN \a4pe<br>duration (non- 0.1 A ° ' l 0<br>repetitive)=1 s oo * * §%, 7 * £8, 7 4 Fee<br>COLLECTOR CURRENT 1-1 —A a i”<br>tr Fig. 5 - Typical de beta characteristics.<br>0.1 for all types.<br>(Figs. 12, 13, (1B1)<br>16.17) 7 a Eeeeast gy sstessetecsaiieosiiecsiitnsataas<br>(181) SP easaassssctanvassavatresssiaraoeataenatetectt<br>ts 0.4 AMM2 CECREEEEEEEHEEHczar ctacestsscesccessessesscssteseaoeSeyEEE Rr ettster:<br>(Ip4) eFae Se)ce (soccerSoususcess-saGeaeccuueestsececsuscsencasassaccs > auacaqueeusesecemeueneeseuess<br>(Figs.. 14, 15, -0.5 a§ HHHBEES cgeueatsaeerseratiserscseasereoedccsetjavees<br>\ 2 Ws) op sducasnseses:) coamadsusssgunanenensscees<br>16, 17) (132)0.5 MNSeum [9 c055e8*scaccausdseseesesesessssceetedicttereteetretases<br>7 { (1g1)4 $s2 \ BRECEEEEEEEEEEEfacaeesegeeceaseeeeeeeseeseeceseeGARREEE EEE EEE EEE Hooe on<br>0.1 |Gudueaceugaeedensegeuseneceeeeeceesseees<br>(1g1) EEREsueuegauee EEE EERE EEEsuggageEEEPAHEEE EEE EHHHF jae)<br>(Figs. 10, 11, -0.5 ° COLLECTOR-TO-EMITTER vourace Wert .<br>(Iga) 92C5-19026<br>16, 17) 05 Fig. 6 - Typical output characteristics.<br>(ig for all types.<br>| COLLECTOR-TO-EMITTER VOLTAGE (vce Sv Pith<br>®Pulsed; pulse duration < 350 ys, duty factor = 2%. H dead ee ti nt pad uid<br>BCAUTION: The sustaining voltage Vceg(sus) MUST NOT be measured on a curve tracer. The ¥ sb 1s ase oh ea eae oes<br>sustaining voltage should be measured by means of the test circuit shown in Fig. 3. 5 Piles sot ye aees<br>Sis/p is defined as the current at which second breakdown occurs at a specified collector voltage a eeecs Hes ee reel<br>with the emitter-base junction forward-biased for transistor operation in the active region. . STEEN SHH oy we tit a te<br>4151 = -Igo = value shown. a [anion ge aaa peed bres bese<br>FI HH jens Recor, Ae PlLipLiiipiiii cia<br>° H ios Obes sees<br>° eaze-to-emttER VOLTAGE eg 2<br>9255-40785<br>: Fig. 7 - Typical transfer characteristics.<br>for all types.<br>**----- End of picture text -----**<br>


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__ SC RPOWER TRANSISTORS<br>RCA413, RCA423, RCA431<br>eueditatasesseisiteeesetaial OC BETA'S se H+<br>Fe? t0 Helsstadteesteseatteesdasal es fetesferesfenscteedecccdeses BsSe COLLECTOR~ SUPPLY VOLTAGE Ivcel+200v “THEFT<br>eenSe eetabstpinti: PH] HEE EPspasesesstasessiesesteyeee.cesegsssed essed possi «>Se| PSSST{ESToiifitipesseqieat ]ee | ES [ES Sifts BREEfet! erie) |ienid sesesspssensagesascascsseaaeqsrasssssscessez2UN arGitecn!ce?”  HRHEEE<br>Bwgv25, ISHSS[Sceid$3}Hanaerrrstofesse ssdstiyaieees:seectiteesseeesattiti HYEE wt29tw 14hiHSESPER]Es: ERI HE~—[ EETBSTESE SUPettRTst EETephsst HE) Toaw=  SocedTTEEREseeeeceneedeesER sceeeeeceueeeesceeaecessspetee<br>eg"5 ESEUfEE: Thifitybess Sess easgates fasta saseasRe Heeatabssdi fosectaseae @ic8 miffpnPE PAHPRUIEEfast: Pkssstipes r2 os fatOR SageseySeeeGenGe0seeuensaep_aasusecsscenes!Seuauagpe -suswusgeuseccsse<br>2 PEPES 133 stat eeenite foeeafteeS yz pea HE < HH} s Ht Beecate Ee He<br>gzJe 2 i STE33 Ta: pHHristiepAttan aE %So 06 panhintentestnetes = cJec sae seews sese§e>-a0Prot te seqecsneneseuessneesseeesHt<br>Caaa [:5824285:] 2] a Sa 4 isl4  eestieeSeedsHetsSeNs tSza3:His Ga3c ogiEELEUES boeesHit BH[REIHESika in Sis= fe Seauuauueueanes: Secee -cauaeussesescrseeguesesgeueeseeeseRSH HTH sGenesnesucesss<br>&$SecGen1 side]bonedeto¥e2dbestssobs]waned abeedbabelaoes Sirsa]Eeeasinine ctaaapsrit a beets-gstesblsaens nd:=eee333 bhesssdesecss.1ft jasefHseewdesess!agsssssesse3a33ees+ nn a”> o2——04>tresEcoeeeTs— eos—=sft Tieeons =227)coerq2:<3. aesa betesneybooed§ose4 | ol fescPAH+HSEe H EH e Eeeeggsessuansas AHHHeereytHRei  PoPERESssuesscecsecdecccaueucsecaasniTEEEESnaddssszssissiatiititil geeeee seasAEEEeaeesassesEE<br>ryfees etfi1 r p e b e rrs2 Se eTtH3 ES ee4 tt3 tzst 6 r)tt(Bes 1errr2a = 3 Fr=z3feee‘4 5tressSEFests6 rsees 3 see ssaseeCOLLECTORCOCCURRENTIT¢)2 ee —A3 ey‘<br>COLLECTOR CURRENT (Ic)—A COLLECTOR CURRENT (Ic) — a 92c5-19206<br>9205-19242 92CS-1925)<br>Fig. 8 - Typical saturation voltage vs. Fig. 9 - Typical saturation voliage vs. Fig. 10 - Typical fall time vs. collector current<br>collector current for RCA413 and RCA423. collector current for RCA431. for RCA413 and RCA423.<br>REPETITIONPULSE DURATION¢ 20 ee erase sore auweassesee PULSE OURATIONS20 ys HEE A<br>RATE *100H2 Bs panes ates PESTON nate oo He seeeseeeass, REPETITION RATE +100 Hz . Saseeseesuees<br>COLLECTOR-SUPPLYCASE VOLTAGE (Vcc!+200¥ = Goes 15] COLLECTOR- SUPPLY VOLTAGE (Vcc) + 200v Tre Tt TORR One ee epee! 200% EERE<br>TEMPERATURE (Tc) #25 °C a Seana tees OC BETA +Ic¢/1p,°!0; Ig,*-I92/5 aacegagsece Ast TEMPERATURE (Te 1°25 ¢ Sooseeeeucean<br>- oeIp,*-1vera tegis SUPELELae PET{! it __ |caSE TEMPERATURE 125°(Te1+25 °C seacedeseseasen telaeta8,'~ 1a inept os Beseteceesaee<br>. arr —y pt wee pe 2 GAARA]| FF A AE A FAL$ HH 22 ————EEE eee<br>Ei senza sees eres satss pateeseeed stacy asst 382 fae sSeSaCees rvssescececcsesssaedsccsccsscecsses PR sscsecensssseeeeeececeererssscseceeeeeeeesees<br>Fe32 PHptt Hor}ttSst p asaees feces!PestrHtt -2 SEGREseccuscsed scaeeseaeegeueguedsuecucusesssseneeBECRUEGSSSSS DESEERRESGESeaneeEES>Waneeeeesae Fadz SeesecueccasedsEEREHOCEEE soseceeceeceee e nsacceescuscascaee ee P e s<br>23 ssesquauegesBy He PH peHr | 7Eau doaequeeaeeeegcosas sceececeaGeceessceeespepegesee Hacua sccceccgeesce wePapa ECEresssavasatasatsanerCe cfatasasvaratatseaererae<br>os ee os Hee te Ee eee OsEECCA<br>popzsennsieSanes' a 3zeDit yy tay,aes eeeCTA2ehee seeeres' EEeee eeeeee! FEEEjeepecHHH4eeeBeeeeeeeeeesseeeeteccaaaaen e Sucsescses7cesneueeeceaeuseueeeecewscaeueese C UT LCEOO) ELE EEL LLL rT moth<br>Fesgecsepdcedecscacsiseessaeagesecs teeecess beskactesssscssscesceqedsccersssceceesenseess EERE<br>Bepssecesaesetaedetseceratetsasatetssieii Bssuaensagceaeriataetastresrssreesseeiaes? BIdsseassascessassserssressceecerscsessesees<br>r) Soeee eeecodccccdcsueauescsscssn 2 3 4 $ HH ry )PH HH 1suusatutasatasesovaseeatstssatatats2 4 EE<br>COLLECTOR CURRENT (Ic¢}— A COLLECTOR CURRENTIIc¢)—A COLLECTOR CURRENT(I¢)—A<br>92cs-19243 92CS-19247 9205-19206<br>Fig. 11 - Typical fall-time vs. collector current Fig. 12 - Typical rise time vs. collector current Fig. , 13 - Typical rise time vs. : collector<br>for RCA431. foror RC RCA413 and and RCA423.4 current for RCA431.<br>De Saceeneeeguch<qaueueeseeseseuseeusaueeseasasssaessaassesaesaassesevassssvezseseesvess2<br>12 —HHH EEPA SAEteee eee jaeae<br>Seesusscseseeeeeee. Geeeecrscesessenesegusene<br>. eee eee a eeaaaaeenaaanaeee secee<br>PO) escescoeeeeeeeceseneesaeasens°Guseesseueecersscess|PEE ET Ee ee rr<br>1 SeleGGGneaseenGneuceuauan SETH HH<br>cg SESRSSSGS0SeSeessuausssers.<seesnensasaseeeus<br>i= EOE SSE seee8<br>Fai=as-lw 0.8 ———eeeCCCEECeeeeeeeee ee eeadannnanneana REEEAEHjesaeeusenee +<br>tc< 0.6 eeesaueBEE ROEEEE——— eeeECsSSRSSeF. Caseseseses83 SesessueseeH K Ig,<br>iSi) 0-4) EOEPULSESESSSSSeeDURATIONseuss¢  eeeceses20 we  OrrSSeS Seeene WeeesesessaSyveouas wdced i) - TIME<br>2] REPETITIONCOLLECTOR —RATESUPPLY+ 100VOLTAGE Hr (y_) «zoov FTETTETTPENHTY! as° |{ Ig 2 —e—INPUT WAVE FORM<br>dcCASEBETA+I¢TEMPERATURE/Ig, #10;(T.)*Ip,25°C*-Te,/5 suauauenasHo - || a | |<br>7 - ; ; Hoo so ne ! |<br>COLLECTOR CURRENT (Ic) —A 9205-19248 | | i|<br>. . . L a | TondtON TION!-|— | |<br>Fig. 14 - Typical storage time vs. collector 4 “oS | —===-= lson,<br>current for RCA413 and RCA423. sures 4 | i ON<br>Ceneeat0R a transiston | | | \y<br>CENER& "5; sy ‘ UNBER‘ST oe | | \ 1\;<br>REPETITIONRATE #100 Hr<br>REPETITIONCOLLECTOR-SUPPLYRATE =100+VOLTAGE {Vcc} «200 v-tttmarictccens+t Ett] ; 33° ‘6 Joo " 0% tse<br>CASE TEMPERATURE (Tc)*25 °C sugeecaqueses ae ty t<br>. |¥o,7- 202 ersbsagusee rest cauienateo TURN-ON . TURN-OFF<br>i S]OC BETA (heel=S scnasessescaua| sere bev ay cuRRee TIME waveTIMEFORM<br>wAes7- eeeSecensessctrarserssaserasraseseievasietzetoow———ee EE eee [eee] eeePiteee ce scaeerecannaouadtpeeePH “1g, AND Ig, MEASURED IT TEX TRONIx CURRENT PROSE P21?92CS-19ZA3RI OR EQUIVALENT oureur9755-4085<br>-2Wp Soenecam!cacceceucccesacesetaeractecsvesrasesaqzesesaqesn'segegeseceseenseresseeeneeeusreensesequeeleaseeneae eeeeeces sacue oneal<br>; BSSEScEseguerssssesscesaesssessscrascessesies Fig. 16 - Circuit used to measure switching times. Fig. 17 - Phase relationship between input and<br>Ee eussevatascesssreretarssreratatssratatetes output currents showing reference points<br>Soecseessegsscess -ceecnsuscussereeesneseuses tor specification of switching times.<br>‘ sonaeasusasescesscsssneesteccecessacaredesess a pian<br>se See caseang SeeSSSESeRESESaSSEAREEESSesEEs (Test circuit shown in Fig. 16).<br>H-CEEERSESS SESSRERE SESNSSORESFHCEees SeReeeeEsessesesesesSensecsegen! edeeenes<br>° 1 2 3 4 $ 6<br>COLLECTOR CURRENT (Ic)— A<br>92CS-19245<br>Fig. 15 - Typical storage time vs. collector<br>current for RCA431.<br>**----- End of picture text -----**<br>


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TO-204MA/TO-3 A SYMBOL INCHES MILLIMETERS Iniotes<br>SD oP A 0.250 0.450 6.35 11.35<br>(-) ob 0.038 | 0.043 0.96 1.092} 1<br>oD - 0.875 - 22.22<br>$ —R e 0.420 0.440 10.67 11.17 2<br>#b ey 0.205 | 0.225 5.21 5.71 | 2<br>$0 = - a —_—- F 0.060 0.135 1.53 3.42<br>1 q 2 %, LyL 0.312- | 0. 0550 0 7.93- 12.12 7 0] 1<br>q 1.177 | 1.197 | 29.90 | 30.40<br>LO gP 0.151 0.161 3.836 4.089<br>F‘ 4 [ . uy e RyR 0.4950.131 | 0.5250.188 | 12.583.33 | 13.334.77<br>e s 0.655 | 0.675 | 16.64 | 17.14<br>Notes: 7 92CS—15222R3 . —_ _ OT<br>.<br>1: . . 2: These dimensions should be measured at points 0.050 in.<br>¢b applies between L 4 and L. Diameter is uncontrolled (1.270 mm) to 0.055 in. (1.397 mm) below seating plane.<br>in ly. When gage is not used, measurement will be made at<br>seating plane.<br>**----- End of picture text -----**<br>