JAN & JANTX 2N6350 5 Amp, 150V, NPN JAN & JANTX 2N6352 JAN & JANTX 2N6353 FEATURES DESCRIPTION High Current Gain: up to 2000 min. @ !, = 5A Unitrode NPN Darlingtons consist of a @ Low Saturation Voltage: as low as 1.5V max. @ I, = 2A two transistor circuit on a single @ Peak Current: to 10A monolithic planar chip. The 2N6350 JAN/JANTX versions meet MIL-S-19500/472 series is characterized for fast switch- ing applications. ABSOLUTE MAXIMUM RATINGS 10-33 3 PIN TO-66 JAN & JANTX JAN & JANTX JAN & JANTX JAN & JANTX 2N6350 2N6351 2N6352 2N6353 Collector Emitter Voltage ._. we vtec BOV DBO le eee eee iteneriscctianeenescsteeeee B0V .. 150V IV Emitter Base Voltages Vege D.C. Collector Current . Peak Collector Current Base 1 Current ....... Power Dissipation 25C Ambient oo. 100C Case oo. Thermal Resistance Junction-to-Case ............. voter 209C {We ves cetbeceestiseteectes cosretiesesetetetee 4C/W Operating and Storage Temperature Range ... w. 65C to 200C eet ete venieecenienitnttasentnr otters 65C to 200C MECHANICAL SPECIFICATIONS JAN & JANTX 2N6350 JAN & JANTX 2N6351 TO-33 COLLECTOR CONNECTED TO CASE JAN & JANTX 2N6352 (JAN & JANTX 2N6353 3 PIN TO-66 its [Ly 13 an UNITRODE BASE 1 y- EMITTER ar a) x P| [ho 1 4 fe > Nv e f K ne, L A E BASE 2 M COLLECTOR CONNECTED TO CASEJAN & JANTX 2N6350 = JAN & JANTX 2N6351 JAN & JANTX 2N6352 9 JAN & JANTX 2N6353 ELECTRICAL SPECIFICATIONS (at 25C unless noted) MIL-STD-750 Test Symbol | Min. Max. Units {Method Test Conditions Visual and Mechanical 2071 See Mechanical Data 25C Collector-Emitter Breakdown Voltage BVcro 3011 | I == 25mA, Reg, = 2.2K, Rg, = 100 Ohms 2N6350, 2N6352 80 Vde 2N6351, 2N6353 150 Vde Emitter Base Breakdown Voltage, Base 1 BY sor 12 Vde | 3026 | 1, = I[2mA Base 1 Open Emitter Base Breakdown Voltage, Base 2 BV eso2 6 Vde | 3026 | |, = 12mA Base 2 Open Collector Emitter Cutoff Current loex 1.0 | pAdc | 3041 | Veg = BVG;, Rating D.C. Current Gain hee 3076 | Vog = SVde; I, = 1.0A (pulse) 2N6350, 2N6352 2000 Roe. = 1K 2N6351, 2N6353 1000 D.C. Current Gain Reg 3076 | Vo, = 5Vde; I, = 5.0Ade (pulse) 2N6350, 2N6352 2000 | 10000 Rog, == 100 Ohms 2N6351, 2N6353 1000 | 10000 D.C. Current Gain Neg 3076 | Veg = SVde; I, = 10Adc (pulse) 2N6350, 2N6352 400 Ree, == 100 Ohms { _2N6351, 2N6353 200 Collector Saturation Voltage Vee (sat) 3071 | Ie = 5.0Adc, Ree, = 100 Ohms 2N6350, 2N6352 15 | Vde 1;, = 5mAdc (pulse) 2N6351, 2N6353 15 | Vde 1g, = 10mAdc (pulse) Base Saturation Voltage Voei (on) 25 Vde | 3066 | 1, = 5.0Adc (pulse), Vo_ = 5Vde Ree = 100 Ohms AC. Current Gain |Pee| 5 25 3066 | Vez = 10Vde, Ie = 1.0Adc, f = 10MHz Ree, = 100 Ohms Output Capacitance Cosoi 40 | pf 3236 | Veg, = 10Vdc, 100KHz < f < 1MHz Base 2 open Turn-on Time ton 05 uS 3251 | Veg = 30Vde; I, = 5.0Adc See Switching Speed Circuit Turn-off Time tors 12 HS 3251 | Veg == 30Vde; I = 5.0Ade See Switching Speed Circuit 150C Collector-Emitter Cutoff Current loex 10 | pAdc| 3041 | V.5, = 2Vdc, Reg, = 100 Ohms Vee = BVceg Rating 65C D.C. Current Gain hee 3076 ) Vog = SVde, I, = 5.0Adc (pulse) 2N6350, 2N6352 400 Ree, = 100 Ohms 2N6351, 2N6353 200 UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 114 PRINTED IN U.S.A.JAN & JANTX 2N6350 JAN & JANTX 2N6351 JAN & JANTX 2N6352 JAN & JANTX 2N6353 Fi d Bi: Forward Bias Safe Operating Area Safe Operating Area 2N6350, 2N6351 2N6352, 2N6353 T. = 100C T. = 100C louSec pc 1% 10uSec, 1% ImSec, 25% 100uSec Cycle 1% lmSec, 10% 100zSec lmSec 100xSec, 10% 25% Duty Cycle 1% imSec, 10% 100uSec, 10% I, ~ COLLECTOR CURRENT (A) Ig COLLECTOR CURRENT (A) 2N6350 2N6351 1 2 5 10 20 50 80 150 1 2 5 10 20 50 80 150 Veg COLLECTOR TO EMITTER VOLTAGE (V) Vg COLLECTOR TO EMITTER VOLTAGE (V) Reverse Bias Unclamped Reverse Bias Safe Operating Area _ Second Breakdown Clamped Inductive Switching 10 1+ T, = 28C N ty = ly =! T, = 100C 5 t's) 02 c/190 ] c N Valid for Vive _ Ree < 1000 3 VANS ON from 0 to 5V < g 2 x L allnan = 5 XY i | z =? s r Rex! te = IN ~ a Es \ < Mk A $y 2 2 w NUON fe om Z XS Tt 5 2 8 Qo Limit per 4%, Se ry] oa] 3 ~N 6 = Q -1 } MIL-S-19500/472 +4 | 00; 8 Zz @ Vie = 4V, NS | Po fo o | 05 + Rize = 1K o~ | a \ We to x 2N6350, 2N6351, | ) Oy 2N6352 2N6353 02 | ~~ | a or L 1 2 3 4 5 6 7 8 9 10 1 2 5 10 20 508090 150 Ig COLLECTOR CURRENT (A) Vig COLLECTOR TO EMITTER VOLTAGE (V) D.C. Current Gain D.C. Current Gain 2N6350, 2N6352 2N6351, 2N6353 50,000 10,000 5,000 20,000 z 10,000 z 2,000 < < oO oO 5,000 ,. 1,000 5 Zz w wo 500 = 2,000 fz 2 2 QO 1,000 G 200 g a 500 | 100 | . Veg = 5V = 200 = 50 Rae = 1002 100 20 50 10 1 002 05 1 (2 Soa 2 5 10 Ol 02 05 1. 2 5 1 2 5 10 Ig COLLECTOR CURRENT (A) l = COLLECTOR CURRENT (A) UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 + TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 115 PRINTED IN U.S.A.2NG350 & 52 Switching Speed Circuit Saturation Voltages JAN & JANTX 2N6350 JAN & JANTX 2N6352 JAN & JANTX 2N6351 JAN & JANTX 2N6353 Saturation Voltage Temperature Coefficients 5 T +4 | | T= 25C 9 bn > evreco reve 7 1002 _4 = +3 2 Vv 2N6351, 53 | Bm cree n +4 = a bE 42 y 1 z Wl > uw Zo. uw uw 2 3 0 g 65C to 25C Sor Vet 4 2] > < | yy, we 2 25C to 150C Te a i = = _3 Ves, 2N6350, 527) 7 65C to 25C N6351, 53 ~ Ip 2 Iepiao TY > 4 I, 21 { 4 3 E lb > le rs00 { _s a 2 5 1 2 5 10 a 2 5 i 2 5 10 Ig ~ COLLECTOR CURRENT (A) ig COLLECTOR CURRENT (A) Switching Speed Switching Speed Characteristics Characteristics 05 2 Veg = 30V 150C Is = lense Rng = 1002 Fail Time, t, a Gi z < 3 .2 g 3 2 sg E E's lu w = 150C - be 125 Storage Time, t, Delay Time, ty 25C 0.5 2 1 2 le COLLECTOR CURRENT (A) 2N8351 & 3 Switching Speed Circuit 1 2 i COLLECTOR CURRENT (A) Thermai Response 1 bore 4 btonsn4 Duty Cycle = 0.5 av ote av soe . ont , =p i OUTPUT WAVEFORM 1 30vdC ' z iseenore 2 3 2 HW Noe 21 < 2 aA mo Oy c(t) = s-C 9a 005 96> CIW N2 for a Za 02 = =5 sc cr for 2N6350, 2N5651 NOTES: 2 01 i Zr ingl 1. The input waveform is supplied by @ pulse - Single generator with the following characteristics: ! te ibna,t < isn, 2,0 = W = 10 AS, 005 Duty cycle < 2%. ~ 2. Output waveforms are monitored on an - oscilloscope with the foliowing characteristics: -002 3. on 4 re additional by-passing in order to mini ing. .002 01.02 05 .1 2 56 1 2 5 10 20 50 100 200 5001000 TIME (milliseconds) UNITRODE CORPORATION + 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 116 PRINTED IN U.S.A.JAN & SANTX 2N6350 JAN & JANTX 2N6351 JAN & JANTX 2N6352 0 JAN & JANTX 2N6353 D.C. Current Gain vs. Collector Current 2N6350 2N6353 10,000 T = 150C z z T = 25C \ 3 1000 5 Wa | iu x rg > 65C o oO 100 7 & Veg = SVde Ry = 1002 10 01 a 1.0 10 I, COLLECTOR CURRENT {A) 2N6350 & 52 Switching Speed Circuit 2N6351 & 3 Switching Speed Circuit 1048-4 k-10us-| 20V y_90% 25v 190% -INPUT WAVEFORM -{- - IPUT WAVEFORM oe - 7 (SEE NOTES 1 AND 2) ged = NGSEE NOTES 1 AND 2) / OF atte te =| tore tee fo nf tony | 10% {7 10% 9, i OUTPUT WAVEFORM = +30Vdc ol! UTPUT WAVEFORM +30Vdc 90% to i (SEE NOTE 2) 90% (See NOTE 2) (Sec See O08.F NOTE 2) NOTE 2} PULSE IN PULSE 50 kg IN 10Vdc NOTES: 1. The input waveform is supplied by a pulse generator with the following characteristics: t. < 15 ns, t, < 15 ns, Z,, = 500, PW = 10 us, Duty cycle < 2%. 2. Output waveforms are monitored on an ascilioscope with the following characteristics: t, < 15 ns, Z,, > 10 MG, C,, < 11.5 pF. 3. Resistors shall be noninductive types. 4. The DC power supplies may require additional by-passing in order to minimize ringing. UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 + TELEX 95-1064 117 PRINTED IN U.S.A.