EPITAX!AL-BASE N-P-N & P-N-P POWER TYPES Ic to 15A...P7 to 200W... VCE to 125 V (, = -3.5 max. ig = 6 A max. Ig * 6 A max. ig= 7 A max. ig = 7 A max. ig = 15 Amex. ig = -15 A mex, le = 15 A max. te = 15 A max. Py = 10 W max. Py = 40 W max. Py = 40 W max. Py = 40 W max. Py = 40 W mex. Py = 125 Wimax. Py = 125 W max. Py = 75 W max. Py = 75 W max. (T0-39) (T0-66)** (T0-68)** VERSAWATT VERSAWATT {T0-3) (T0-3) VERSAWATT VERSAWATT (TO-220) (T0-220) (T0-220) {T0-220) 90 x 90 90 x 90 90 x 90 90 x 90 90 x 90 150 x 150 150 x 150 150 x 150 150 x 150 Family Designation 2N5781 2N6372 2N5954 2N6292 2N6107 2N6472 2N6248 2N6488 2N6491 [P-N-P] [N-P-N] [P-N-P] [N-P-N] [P-N-P] [N-P-N] [P-N-P] [N-P-N]} [P-N-P] 2N6288 2N6110 2N5783 2N6374 2N5956 2N6289 2N6111 2N6470 2N6469 2N6486 2N6489 Vcen(SUS) = -45| Vcent(Sus)= 45 Vv | VeeRiSUS)=-45V] VceRISUS)=40 Vv | VceRiSUS) = 40V Vegas 45 Vegpisus = ~45V Vege (ius 50V Vcpplsus)= -50V hee = 20-100 bre = 20-100 hpe = 20-100 hee = 30-150 hee * 30-150 heg= 20-150 he p= 20-150 he -=20-150 @-16A @3A @-3A @3A @-3A S@5A S@ -5A "*@ 5A tp = 8 MHz min. f7 = 4 MHz min. f= 5 MHz min. ft = 4 MHz min. f= 10 MHz min, ,=5 MHz typ. fy26 MHz min. f,=5 MHz typ. f= 5 MHz typ. cr cT cT cr File No, 413 File No. 675 File No.675 File No.676 File No. 676 File No. 677 File No. 677 File No. 678 File No. 678 2N6290 2N6108 2N5782 2N6373 2N5955 2N6291 2N6109 2N6471 2N6246 2N6487 2N6490 VceR(SUS) = -65V] VcER(SUS)=65V | VoeRiSUS)=-65V| Vo_eRisus) = 60 V | VceR (SUS) = -60V Vocggtsusr65V VceRISUS) = -65 V Vegg(sus)=70V Vegpisusk -70V neg = 20-100 hee = 20-100 neg = 20-100 hee = 30-160 hee = 30-150 h. = 20-150 hee = 20-150 h, = 20-150 h_ p= 20-150 @-12A4 @25A @-25A @25A @-254 Fea SA @-5A FEO SA FES 5A = ty = 4 MHZ min. ty = = i . = fy 8 MHz min. Tt jz min Te5 MHz min. ft = 4 MHz min. fr 10 MHz min, fe SMHz typ. fy = 6 MHz min. aes Miz typ. ie 5 MHz typ. cT cT cT 413E 675 675 676 676 677 677 678 678 2N6292 2N6106 2N5781 2N6372 2N5954 2N6293 2N6107 2N6472 2N6247 2N6488 2N6491 VceR{SUS) = -80V 1 VcgR{SUS} = 85 V | VcERISUS) = -86V Vcer (SUS) = 80 V Veer (SUS! = 80 V Vegptsus)=85V Vcer(SUS! = -85V Vege tus) =90V Veeep(sus) = -90V hee = 20-100 hee = 20-100 NEE = 20-100 hee = 30-150 hee = 30-150 hp p= 20-150 hpe = 20-150 hpp=20-150 ba 20-150 @-1A @2A @-2A @2A @-2A FEO sa @5A Fla 5A FE@ 5A f= 8 MHz min. f= 4 MHz min. = i f7 = 4 MHz min. = = T in. T f7 = 5 MHz min. T Zz min ty = 10 MHz min. f= 5 MH typ. f= 6 MHz min. f= 5 Mie typ. f 25 MH typ, cT cT ct ANSE 675 675 676 676 677 677 678 678 2N6473 2N6475 2N6248 Vegpitus-110V Vegpisusi lov VcERISUS) = 105 V Pellet sizevalues shown are edge dimensions he _-30-150 ne = 20-100 in thousands-of-an-inch (mits). f,=5 MHz typ. ty = 6 MHz min. T cT 676 677 ** Aca . or _ ape Available with free-air radiator Raja = 30 CAV 2N6474 2N6476 "TA" designations (e.g, TA8662) in this booklet Vege (susi=130V Vocgaiss130 are Developmentai-iype devices. h_=30-150 h..=30-150 FE, FE File No. (e.g. File No.413E), where shown, relates @1A @-1A to the data bulletin. f [= 5 MHz typ. f= 5 Milz typ. CTComplementary Type available, see matrix or 676 on Complementary-Pair Power Types.COMPLEMENTARY -PAIR POWER TYPES Pometaniat Beseieotexetae Ig 15to2A e725 A 1,3 to 3.54 I, 4to6A 1, 12t0 174 N-P-N PNP N-P-N PNP N-P-N PNP NPN P-N-P NPN PNP 2N5293 2N6106 2N5495 2N6110 2N5294 2N6107 2N5786 2N5783 2N3054 2N5955 2N5494 2N6111 2N3055 2N6247 VeeR(SUS) = 75 V | VegR(SUS) =-80 VP VoeRISUS! = 45V | Veg (SUS) = -45 VI VoeR{SUS) = 60 V | VoeRISUS) = -65V] VoeRiSUS) = 50V | VcERISUS}=-40V] VcEeRISUS) = 70V 1 VceRISUS) = ~90V Ipe BA I,=-15A Ig 225A ge -2.5A I,=3A I,=-3A CHa gi FA IQ=I2A IQ=-12A VERSAWATT VERSAWATT (70-39) (70-39) (70-66) (T0-66) VERSAWATT VERSAWATT (T0-3) {T0-3) (TO-220) {T0-220) (TO-220} T0-220} File No, 322 File No.676 File No. 413E 413E File No. 527 675 File No. 353 File No.676 File No. 524 File No. 677 2N5295 2N6106 2N5297 2N6106 2N5491 2N6106 2N5296 2N6107 2N5298 2N6107 2N5490 2N6107 2N4347 2N5954a 2N4348 2N6248 VceRtSuS) = 50 | Veep (SUS) =80V} VogRISUS) = 70V | Vee (SUS) = -80V] VceRISUS) = 50 V | VceR (SUS) = -80 VJ VceyiSUS) = 140] VcERISUS = 85 V] VegyISUS) = 140 V| VogR (SUS) = -110 Y Ige2A 1L=-2A IQ 25A \g= 256A I,=3A 1, 3A Ip=4A 1p=-4A =1 Ij=-14A VERSAWATT VERSAWATT VERSAWATT VERSAWATT VERSAWATT VERSAWATT {TO-3) (70-66) (TO-3) (TO-3) (TO-220) {T0-220) (70-220) (TO-220) (T0-220) (TO-220) 322 676 322 676 353 676 528 675 526 677 2N3441 (2N6468)t 2N5785 2N5782 40250 2N5956 2N6371 2N5956 2N3772 2N6247 Veer (Susi = 150 V1 Voeg (SUS) = 1258 VogaiSUS) = 65 V | VoeRISUS) = -65 VF VoeRiSUS} = 50V | VceRISUS) = 48 VE VogyiSUS) = 50 | Vog_SUS)=45 V9 Veep (SUS!=70V | Voge, (SUS) = -S0V IQ22A IL=-2A p= 25A IQ=-25A I, 235A Ip=-3.5A IL=6A Ip=-6A 127A [gz -I7A (TO-66) (70-66) (TO-39} (T0-39} {TO-66) (T0-66} (TO-3) (TO0-66) (TO-3) (T0-3} 529 413 E 413 112 435 607 675 525 677 2N5493 2N6108 2N5784 2N5781 2N5492 2N6109 2N3055 2N5955 * Or higher voltage VeeRtSUS) = 80V | VceR (SUS) = -80V | VceRiSUS)= 65 V | VeeR (SUS) = -60 VE VcERiSUS) = 70V | VceRISUS) = 65 V type 2N6248. Ipe25A pe -25A IG=3.5A p= 3.54 Ip=6A 1,=-B6A (70-39) {T0-39) VERSAWATT VERSAWATT {TO-3) (T0-66) {TO-220) {TO-220) 413 E 413 353 676 24 675 High-Voltage High-Speed Ig =0.2A Ig=2A I= tA N-P-N P-N-P N-P-N PNP N-P-N PNP NP-N PNP 2N3440 2N5415 2N3584 2N6212 2N3053 2N4037 2N6179 2N6181 Vee (SUS) = 250 V | Veeg (SUS) = -200 4 VoeRISUS) = 350 V/ VeER (SUS) = -325 Veer SUS) = 50V | VceR (SUS) = -60 V1 VcEeR(SUS) = 65 V | VcEeR (SUS) = 65 V 1.2 0.2A 1,=-0.2A Ipe2A i,=-2A IpzlAa IQ=-1A IgelAa Ip=-1A (70-39) {TO-39} (TO-66)} {T0-66} (TO-39) {TO-39) {Plastic TO-5) (Plastic TO-5) File No. 64E File No. 336E File No. 138 File No. 507 File No. 432 File No. 216E File No. 562 562 2N6175 BFT19A 2N3585 2N6213 2N2102 2N4036 2N6178 2N6180 Vcer(SUS) = 300 V| VoeRisus) =-300 4 VcERISUS) = 400 V | VeeR(SUS) = 375 Vi VceR(SUS) = 80V | VceR (SUS) =-85 V9) Vee R(SUS) = 90 V | Voce RISUS) = -90 V (,=O0.2A 1,2 0.24 IG=2A (,=-2A etl Ipe-tA IQzTA IgGetA (Plastic TO-5} (70-39) {T0-66) (70-66) (T0-39) (TO-39) {Plastic TO-5) {Plastic TO-5) 508E 683 138 507 106E 216E 562 562 2N3439 2N5416 BUX67 BUX66 2N5321 2N5323 VeEo(SUS) = 350 V | VceR (SUS) = 350) Veepisus) = 175V | Vogpisus) = 175V VeeRISUS) = 65 V | VceR (SUS) = -65 V I,=O2A 1p=-O.2A I= 2A Ic=- 2A IQtA Ig2-1A (TO-39) {T0-39) (TO-66) (TO-66) (T0-39) (T0-39) 64E 336 art 870 325 325 2N6176 BFT19B BUX67A BUX66A 2N5320 2N5322 VceRISUS) = 350 V | VcER (SUS) = 4008 VceRisus) = 275V | Vcep(sus) =-275V VceRISUS) =90V | VceRISUS) = -90V ct O2A 1,= O24 Ic = 2A Ics-2A (= Ihe (Plastic TO-5} (TO-39} (O-66) {TO66)} (70-39) (TO-39) 508 E 683 a7t a0 325E 325E Note: The collector current (1.) value shown is for heg of 10 min. . BUX67B BUX66B Vcertsus) = 350V | Vee pisus) = 3504 Io = 2A loz {TO66} (TO-66) 871 870 BUX67C BUX66C Vcer(sus) = 400V | Vc_erisus) = 400V Ic = 2A I=-24 File No. (e.g. File No. 322), where shown, relates to data builetin. (TO-66) {TC-66) See Epitaxial-Base and Monolithic Darlington Matrices for 71 870 additional Complementary-Pair Power Types.APPLICATION INFORMATION... Power Types [N-P-N & P-N-P] for Inverter/Switching Regulator Service Frequency Range Peak Voltage Peak Primary Current Requirement Required Up to 0.2A O.2tolA 1 to 4A 4 to 20A >20A 2N5321 10 to 60V 2N3053 2N5323 2N3054 2N3055 . 2N4037 2N6179 2N54974 2N3772 2N6181 2N1486 2N3442 2N3265 60 Hz to 50 kHz 2N1486 2N3441 2N3879 2N3773 60 to 150V 2N2102 2N5298 2N5293 & 2N5039 2N5671 2N4036 2N5781 2N5954@ 2N5672 2N6032 25784 2N6248@ 41012 41013 ross, | RE Be 2N3440 2N6212 All 413 150 to 450V 2N5416 = 40850 - BET 19 A,B,C 40851 423 40852 a 431 40853 2N6514 40854 BUX 18 BFT 28 A,B,C 2N61774 Off Line 220V TA8764 2N5240 (Rectifier 400- TA8900 BUX 16,A,B,C 800V) 2N6513 BUX 18,C @P-N-P types VeEAK = Vcex value VPEAK 2.2V Vec} for push-pull inverters 4Plastic-packaged types 1.1V (Vec) for bridge inverters 1.1 V (Source) for switching regulators2N5786 FAMILY [n-p-n] (silicon) [contd] fy = 1 MHz min; Py = 10 W max DESCRIPTION hee lceRmA Vegtsat)-V Vee-V Vceo!sus) Veer'sus) Veev'sus) le Vee Temp.C Vce le Ip lc AUDIO TYPES v v v A} Vi 25 [450] v AT] A A 40610 Output, 3-W Audio Ampli. 25 - - 20-100 |} 1.2] 1] 1) ~}] 25] -7| -}| -[] -] - 40615 Output, 5-W Audio Ampli. 30 - -- 20-100 | 1.2] 17 ] | 257 -] = | - F-- | = 40620 Output, 7-W Audio Ampli. 32 - - 20-100 | 15] 1f 14) | a7 -]| - | - ~f- TO-39 IcER-HA 2N5840 FAMILY [n-p-n] (silicon) 2N TYPES ff = 5 MHz min; Py = 100 W max 2N5838 High Voltage, Fast Switch 250 275 275 8-40 3 2 5@ | ga | 265 1 3 10.3759 2 3 2N5839 High Voltage, Fast Switch 275 300 300 10-50 2 3 2@ | 5@ | 290 | 1.5 2 | 0.2 2 2 2N5840 High Voltage, Fast Switch 350 375 375 10-50 2 3 2@ | 58 | 360 | 1.5 2 0.2 2 2 AUDIO TYPES 41016 Output, 70-W Amplifier 100 120 - 10-50 4 4 1 - | 904 2 4;08 ] 2 4 OTHER TYPES 410 ft High Voltage, Inverter Applications 200 - - 30-90 1 5 70.25* 0.54 ,200 0.8 1 0.1 | 1.5 ToO-3 aut High Voltage, Inverter Applications 300 - - 30-90 1 5 [0.25 |0.54| 300 } 0.8 1 | 0.1 15 1 413 ft High Voltage, Inverter Applications 325 ~_ 20-86 0.5 5 470.25 )0.5 4 08; 05 ;0.057 1.5 |;0.5 423 t High Voltage, Inverter Applications 325 - - 30-90 1 5 10.25 |0.54| 400 10.8 1 0.1 71.5 1 431 High Voltage, Inverter Applications 325 - - 15-35 2.5 5 25 | 5@/ 400707, 25/ 05715 [25 40852 Off-Line Switching-Regulator for Power Supplies 350 375 - 12 min. | 1.2 1 JO.5@!1 54 | 4507 3 4 08 2 4 loey Sleeye@ 100C IcEO Aloey @ 125C t Not recommended as replacement typs. 2N5954 FAMILY [p-n-p] (silicon) fy = 5 MHz min; Py = 40 W max 2N TYPES 2N5956 General Purpose, Medium Power ~40 -45 504 20-100 -3 -4 [-1008 -35 | -1 -3 | -O.34 -2 -3 2N5955 General Purpose, Medium Power -60 -65 . ~70 20-100 |-2.5 | -4 ]-100 -55 -1 -2.5}-0.259 -2 |-2.5 2N5954 General Purpose, Medium Power 389 85 29 4 20-100_ | -2 | -4 j-1000 75 font ft -2 | 0.25 -2 2 AVe x (sus) 'cER-HA