SEMELAB ULNVI=ED POWER TRANSISTORS Q61-Qa5 2N3055H, 2N6253, 2N6254, 2N6371, 40251 Hometaxial-Base High-Power Silicon N-P-N Transistors Rugged, Broadly Applicable Devices For Industrial and Commercial Use These RCA types are silicon n-p-n tran- sistors intended for a wide variety of high- power linear and switching applications. The hometaxial-base construction of these devices makes them highly resistant to second breakdown; for example, the 2N3055H can withstand an Ig /y, current of 1.95 amperes (min.) at a VCEQ of up to 60 volts. For the 2N6254, the Is/p rating is 1.87 amperes {min.) at VCEO up to 80 volts. All of these transistors are supplied in the JEDEC TO-3 hermetic steel package. MAXIMUM RATINGS, Absolute-Maximum Values: 2N3055H 2N6253 2N6254 2N6371 40251 *VOBO. eee ees 100 55 100 50 50 Vv Veer (sus) RpE=1002....... 0.0008 70 55 85 45 - Vv *Voeolsus). 2 6. ee eee 60 45 80 40 40 Vv Veevlsus) VeET IBV... eee eee 90 55 90 50 50 OV *VEBO. Ce eee 7 5 : 7 5 5 v NOL cee ee 15 15 | 15 15 15 OA ad rr 7 7 7 7 7 BA Pr: ' QIWBC Le ee 415 115 150 117 117) OW PBC ees PTY Tsg ee *T _: During soldering, at distances 1/32 in. (0.8 mm) from seating Derate linearly to 260C 65 to +200 C 235 c plane for 10smax..,....... *tn accordance with JEDEC registration data formats JS-9 RDF-10: 2N3055H; JS-6 RDF-2; 2N6253, 2N6254, 2N6371. POWER DISSIPATION 1 MUMEER OF THE@BAL CYCLES stcs-20030 Fig. 1 - Thermal-cycting rating chart for 2NI3055H, 2N6253, 2N6371. v FORMALD-CUTRENT TRANSITR RATIO hye) oa ao ww CALLCTOR CURRENT (I cid Fig. 4- Typico! de beta characteristics for 2N3055H and 2N6371. tence POWER DISSIPATION (PTI Ww ing Ve NS PN ei LDS | 6 **L "ot 2? a figs t 4s 86 MUMBER OF THERMAL CYCLES 97cs-20he Fig. 2- Thermal cycling rating chart for 2N6254. w* 2 | 2 am Qu wo 0 COLLECTOR CURRENT (1}A . ware -19 004 Fig. 5- Typical de beta characteristics for 2N6253. Features: 2N6254: premium type from 2N3055H family Maximum safe-area-of-operation curves = Low saturation voltages High dissipation ratings Thermal-cycle rating curves Applications: @ Series and shunt regulators High-fidelity amplifiers = Power-switching circuits = Solenoid drivers = Low-frequency inverters TERMINAL DESIGNATIONS E sace-Erse JEDEC TO3 & CASE TEMPERATURE (To )* 25C * t TKO Ee CAIN-BANCMNOTH PRODUCT Uf ylMer r es Om al ' o COLLECTOR CURRENT (Ica FEES 357 Fig. 3- Typical gain-bandwidth product for all types. OC FoR wan: 2 eae a: e ao * * on 1b ) COLLECTOR CURRENT {I,)A BICE-pwedt Fig. 6- Typical Oc beta characteristics for 2NG254. oadSEMELAB LiNiirebd POWER TRANSISTORS 2N3055H, 2N6253, 2N6254, 2N6371, 40251 COLLECTOR CURRENT (L}A COLLECTOR CURRENT (1)-A CASE TEMPERATURE (Te )*25C (CURVES MUST BE DERATED LINEARLY WITH INCREASE IN TEMPERATUR COLLECTOR-~TO- EMITTER VOLTAGE (Vogh-v NORMALIZED POWER MULTIPLI BS Ic (MAX.) CONTINUOUS NONREPETITIVE S/b ~ LIMITE 2NG6255 Vor, MAX.= 45 V 2N3055H Veep MAX* GOV 2 4 6 8 to 2 | COLLECTOR-TO-EMITTER VOLTAGE (Vo ) V 928S3364R2 Fig. 7 - Maximum operating areas far types 2NG253 and 2N3055H. CASE TEMPERATURE (Tc) = 25C 8) (CURVES MUST BE DERATED LINEARLY WITH INCREASE IN TEMPERATURE) POWER MULTIPLIER 30 PULSE OPERATION (MAX.) CONTINUOUS * FOR SINGLE NONREPETIT IVE PULSE 4 6 8 wooo 2 4 .6 8 92C5-19435RI Fig. {0- Maximum operating areas for 2NG254, COLLECTOR-TO-EMITTER A o I : z Py e 5 a & 2 3 o 3 8 G BASE-TO-EMITTER VOLTAGE (Vag) v Fig. 8- Typical transfer characteristics for 2N6254, 2N3055H, 2NG371, 40257. TO-EMITTER VOLTAGE iVcE)=4 a COLLECTOR CURRENT {Ip jA os U 1S 2 28 BASE-TO-EMITTER VOLTAGE (Vg5)v v2CS-19445 3 Fig. 9- Typical transfer characteristics for 2N6253. COLL ECTOR-TO-EMITTER VOLTAGE Ivephemy GE i ' BASE CURRENT (ZghA a a o eo QASE-TO-EUITTER VOUTADE (Wpget- wroirsormm Fig. 11 - Typical input characteristics for 2N3055H, 2N6371, 40251. CASE TEMPERATURE 10) 27 CUANENT (Te) COLLECTOR = TO EMITTER VOLTAGE (vce iv PACS ER Fig. 72- Typical output characteristics for 2N3055H, 2N6371. S2CS123268 + ee Cer wadSEMELAB LUWITED POWER TRANSISTORS 2N3055H, 2N6253, 2N6254, 2N6371, 40251 COLLECTOR TO-EMITTER VOLTAGE dea SF CASE TEMPERATURE (Tc)*25C PULSED OPERATION [I - Ig (MAX. : NORMALIZED POWER MULTIPLIER ae is : COLLECTOR CURRENT (I)A nan @ It. * FOR SINGLE NONREPETITIVE PULSE 1 - Vceo (MAX.1240V . | | 1 2 4 5 8 ig 2 4 & 8190 2 4 6 8 COLLECTOR-TO-EMITTER VOLTAGE (Veg)v 9205-20674 Fig. 13- Maximum safe area of operation at case temperature of 25C for 2N6371. 8} CASE TEMPERATURE (Tes 100C 6 4 NORMALIZED : POWER MULTIPLIER PULSED OPERATION 2h Te (MAX. = te COLLECTOR CURRENT (I1)A 5 a @ "FOR SINGLE . NONREPETITIVE PULSE . - t Veeg i MAX J 40V ' 2 6 8, 2 e 8 8A, COLLECTOR-TO- EMITTER VOLTAGE {VcgIV Fig. 16 - Maximum safe area of operation at case temperature af 100C for 2N6371. g2cs-2071t 1 BASE CURRENT {igha a 9 0.5 1 . 3 BASE-TO-EMITTER VOLTAGE (Vge]v 22CS-19440 Fig. 14- Typical input characteristics for 2N6G252. COLLECTOR CURRENT (Ig) A 10 2 30 ao COLLECTOR -TO-EMITTER VOLTAGE (Voe}v S2C$-198a1 Fig. 15 - Typical output characteristics for 2N6253. COLLECTOA-TO-EMITTER VOLTAGE (VcEl4 BASE CURRENT (Ig}A 2 BASE-TO-EMITTER VOLTAGE (Vgg}v 9209-19438 Fig. 17+ Typical input characteristics for 2N6254. CASE TEMPERATURE {Te t*25C a 4 av 5 E a COLLECTOR -TO-CmITTER vor race Neglv vics-oveae Fig. 18+ Typical output characteristics for 2N6254. 79SEMELAB LIViT=b 2N3055H, 2N6253, 2N6254, 2N6371, 40251 ELECTRICAL CHARACTERISTICS, Tc = 25C Unless Otherwise Specified. TEST CONDITIONS : - LIMITS CHARACTERISTIC VOLTAGE | CURRENT my, : : : po uo Vide Ade '_2N305SH_|- 2N6253 2N6254 2N6371 40251 UNITS VcelVBE | ic ig | MIN.{MAX, | MIN.JMAX.| MIN.|MAX.| MIN. IMAX) MINIMAX. - 25 0 -|- f.s -~|- - 415 -{- S'ceo 30 0 [07 fF ~ f-- - - > L- - - mA 60 0 - - - - - 1 - - - - 40)-15 : - - -J- -- f- - - - 2 tiicex 45/-1.5 = - = ~ - - - 2 - - 55]-1.5 - - - 2 ~ - - - - - 100} ~1.5 - 5 ~ - - | os - - - | }ma 40}-1.5 - - - - - |= ~ | 10 - 10 *1T >. = 150C 50] -1.5 -|- ~ fro fo] - -|{- a 100} -1.5 - | 30 - - - 5 = ~ = - 4teBo 5 -|- - | 10 -|- -|- -| - [ma -7 - 5 - - -~ {| 0s = = - | - ViBRicBO 0.1 - - - - - - - - 50; ~- |v ViBRICEV 1.5 [0.1 _ - - ~ - _ - - 50} v VipRIEBO } _ te _f . | 8 _ fe s| _ fy fe = 0.01 mA VV ceoisus) a.2a o 60, - 45| - Bo} - 40] 40} an 9 0.28 7o| - 55| as] 45] ~ -~{- lv Veevisus) -1.5 (0.18 90} - 55] - 901 50} - - thee 4 3a ~ ~ 20/ vor} - | - - - ~{- 4 428 20} 70 ~ - - - ~ - - - 2 5a - - - - 20 }- 70 - - -|- 4 ga - - - - - - 15 60 | 15 60 4 10a 5} - - - : - - - o - . 4 158 - - 3] - 5, - - - ~ - 4 163 - - - - - - 4] - -j- "Vee 4 34 - _ ~ 1.7 _ - ~ _ - - 4 4a - 1.8 - - - - - ~ - - 2 53 - - ~ - - 15 - - -|- |v 4 ga - [re - - - ~ - - - 2.2 4 163 - _ - - - - - 4 - - "Woelsar) 34/ 03a} - - - forte - - - - - 4a 0.44 ~ Ti - - - _ - ~ - - 52) ose} ~ ~ - - 0.5 ~ - - - ga | oga| - - - - - - 15 - 1S Vv 104 | 3.98, - 8 - - - - ~ - - - 15a 3a} - - - | - 4 - - - - 158 se) - - ~ 4 ~ - - - - - 162 4a - - _ - - - _ 4 - - Me 4 1 15 | 120 to] 10} to} - -j- f= 1 kHz fr. 1 goo | ~ - - - = goo] - ~ kHz "|IhFel f= 0.4 MHz ' ~ [7 2} - 2) - 2} - 7] 7 l'nfe 4 1 wo] = mo} 1] = - - - - kHz 'Sfo oe 39 -|- - | - -|- -|- 3{ - tp 21s 40 29] - - - - |- [| 29] - -|- nonrep. . 45 - - 255] - - = - - ~ ~ A 60 1.95) - - |- -ji- -|- -{- 80 - - - - 187] ~ - -{- WIC | | Lt po bs |= ps | - per | - | sf - | os [ecw | * In accordance with JEDEC registration data formats JS-9 ROF-10: 2N3O55H: J2.6 ROF.2- 2N6253, 2N6254, 2N6371 Te. Fuse Guration = UU Us, duty factor = 1.8%,