JAN, JANTX, & JANTXV 2N5660 POWER TRANSISTORS JAN, JANTX, & JANTXV 2N5661 2 Amp, 300V, Planar NPN JAN, JANTX, & JANTXV 2N5662 JAN, JANTX, & JANTXV 2N5663 FEATURES DESCRIPTION @ Meets. MIL-S-19500/454 Unitrode high voltage transistors provide Collector-Base Voltage: up to 400V a unique combination of low saturation D.C. Collector Current: 5A voltage, fast switching, and excellent gain. Peak Collector Current: 10A They are ideally suited for off-line power Fast Switching supply designs and other applications where the increased voltage rating adds to system reliability. JAN, JANTX, JAN, JANTX, JAN, JANTX, JAN, JANTX, ABSOLUTE MAXIMUM RATINGS & JANTXV & JANTXV & JANTXV & JANTXV 2N5660 2NS661 2N5662 2N5663 V Collector-Base Voltage, Vos -- Collector-Emitter Voltage, Vcr Emitter-Base Voltage, Viz. .. D.C. Collector Current, I, .. Peak Collector Current, Iq... . Power Dissipation 25C Ambient 100C Case ............. . Operating and Storage Temperature Range ... MECHANICAL SPECIFICATIONS JAN, JANTX, & JANTXV 2N5660 JAN, JANTX, & JANTXV 2N5661 TO-66 H JAN, JANTX, & JANTXV 2N5662 JAN, JANTX, & JANTXV 2N5663 TO-5 INCHES MILLIMETERS A | __335-.370 851-940 B | _.305-.336 7.75-8.51 | 240-260 6.09-6.60 D/ 1.5 MIN. 38.10 MIN. E | __.010-.030 (254-762 F| 017 208 432 + P52 G|_.200 5.08 H{ 100 2.54 J [0312003 7872076 K |__.029-.045 736-1.14 100 [] 87 ame UNITRODEJAN, JANTX, & JANTXV 2N5660 JAN, JANTX, & JANTXV 2N5661 ELECTRICAL SPECIFICATIONS (at 25C unless noted) JAN, JANTX, & JANTXV 2N5662 JAN, JANTX, & JANTXV 2N5663 2N5660, 2N5652 fase MIL-STD-750 Test Symbol Min. | Max. | Units group [Method Test conditions Visual and mechanical A-L | 2071 See Mechanical Data 25C Collector-Emitter Breakdown Voltage (Note 1) BV cer* 250 |Vde A-2 |3011 |1, = 10mAdc; Re 1009; Cond. B Collector-Emitter Breakdown Voltage (Note 1) | BVcio* 200 | |Vde A-2 [3011 |!_, = 10mAdc; Cond. D Emitter-Base Breakdown Voltage | BVe80* 6 | Vdc A-2 | 3026 | 1, = 10uAdc; Cond. D Coftector-Emitter Cutoff Current lees* | 0.2 | Ade A-2 | 3041 {V., = 200Vdc; Cond. C Collector-Base Cutoff Current lego | 0.1 | Adc | A-2 | 3036 |Vcs = 200Vde; Cond. D Collector-Base Cutoff Current Toso | 10 |mAdc|] A-2 [3036 |V,, = 250Vdc; Cond. D D.C. Current Gain (Note 1) Hee* 40; | A-3 |3076 | 1, = 50mAdc, V._ = 2Vde D.C. Current Gain (Note 1) hye* 40 | 120 A-3 [3076 |J, = 0.5Adc, V,, = 5Vdc D.C. Current Gain (Note 1} He* ywo{[ | A-3 |3076 |I, = 1Adc, V.. = 5SVde D.C. Current Gain (Note 1) Hee 5 A-3 |3076 |I, = 2Adc, Vee = 5Vde Collector Saturation Voltage (Note 1) Voe(sat)* | 0.4 | Vde A-3 |3071 | 1. = 1Adc, |, = 0.1Adc Collector Saturation Voltage (Note 1) Vee(sat) | 08 {Vdc A-3 |3071 {I = 2Adc, I, = 0.4Adc Base Saturation Voltage (Note 1) Ve(sat)* J| 1.2 |Vde A-3 | 3066 | 1, = 1Adc, I, 0.1Adc; Cond. A Base Saturation Voltage (Note 1) Vee(sat) | 15 [Vdc A-3 3066 |i, = 2Adc, I, = 0.4Adc; Cond. A Gain-Bandwidth Product f,* 20 70 | MHz A-4 |3306 | 1, = 0.1Adc, V, = 5Vde, f = 10MHz Output Capacitance Co _ 45 \pf A-4 13236 |Vo, = 10Vdec, |, = 0, f = IMHz Thermal Resistance Oc C-1 {3151 2N5660 |} 5.0 [C/W 2N5662 | 67 [C/W Switching Speeds Turn-on time t.,* | 0.25 jus A4 | JI, = 0.5Adc Turn-off time tou* | 0.85 |us A-4 | 100C Forward Biased Second Breakdown 2N5660 Isfa 2 | Adc B-6 {3051 |Vo; = 10Vde, t = 1Sec I sin 0.5 | Adc B-6 | 3051 | Veg = 40Vdc, t = 1Sec Ise 36] }mAdc] B-6 | 3051 | Voce = 200Vdc, t = 1Sec 2N5662 Isfe 2] | Adc B-7 [3051 | Vcc = 7.5 Vde, t = 1Sec ofa 06] | Adc B-7 | 3051 | Vc. 25Vde, t 1Sec Ista 27 |mAdce!} B-7 | 3051 | Vee = 200Vdc, t = 1Sec Unclamped Reverse Biased Second Breakdown| E,j, 0.2]; | mj B-8 | 3053 |1, = 2Adc, L=0.1 mh Clamped Reverse Biased Second Breakdown Ess 80} | mj B-9 | 3053 | I, = 2Adc, L = 40mh, Veianp = 200V 150C Collctor-Emitter Cutoff Current . loes* | 100 | wAde A-5 | 3041 | V,, = 200Vdc, Cond. C 65C D.C. Current Gain (Note 1) He 6] ]|] A-6 | 3076 | I, = 0.5Adc, Vy, = 5Vde Notes: 1. Pulse width = 300uS; duty cycle <2%. * Those parameters marked with a * are JEDEC registered and devices meeting these specifications are available as commercial 2N devices. UNITRODE CORPORATION + 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 88 PRINTED IN U.S.A.JAN, JANTX, & JANTXV 2N5660 JAN, JANTX, & JANTXV 2N5661 ELECTRICAL SPECIFICATIONS (at 25C unless noted) JAN, JANTX, & JANTXV 2N5662 JAN, JANTX, & JANTXV 2N5663 2N5661, 2N5663 faa MIL-STD-750 Test Symbol Min. | Max. | Units group Method Test conditions Visual and mechanical A-1 {2071 See Mechanical Data 25C Collector-Emitter Breakdown Voltage (Note 1) BV cen* 400 | {Vdc A-2 | 3011 | 1, = 10mAdc; R,, = 1002; Cond. B Collector-Emitter Breakdown Voltage (Note 1) BVcro* 300 | | Vde A-2 |3011 } I, = 10mAdc; Cond. D Emitter-Base Breakdown Voltage BViao* 6] |Vde A-2 | 3026 | i, = 10uAdc; Cond. D Collector-Emitter Cutoff Current lees | 0.2 | wAdc A-2 {3041 }V., = 300Vdc; Cond. C Collector-Base Cutoff Current lero | 0.1 | xAdc A-2 | 3036 | V., 300Vdc; Cond. D Collector-Base Cutoff Current leso | 10 |mAdc{ A-2 | 3036 | V,, = 400Vdc; Cond. D D.C. Current Gain (Note 1) h,.* 27 f A-3 | 3076 | 1, = S0mAdc, Vo. = 2Vde D.C. Current Gain (Note 1) h,.* 2) 7] A-3 | 3076 | I, = O0.5Adc, Vee = 5Vdc D.C. Current Gain (Note 1) h,* by } A-3 | 3076 | I, = 1Adc, V,, = 5Vde D.C. Current Gain (Note 1) he 5] A-3 | 3076 | 1, = 2Adc, VQ, = 5Vdc Collector Saturation Voltage (Note 1) Ve(sat)*} | 0.4 | Vde A-3 | 3071 | 1, = 1Adc, |, = 0.1Adc Collector Saturation Voltage (Note 1) Vex(sat) | 0.8 | Vde A-3 | 3071 | 1, = 2Adc, |, = 0.4Adc Base Saturation Voltage (Note 1) Vic(sat*} | 12 | Vde A-3 | 3066 | |, = 1Adc, I, = 0.1Adc; Cond. A Base Saturation Voltage (Note 1) Vae(sat) | 15 | Vde A-3 | 3066 | 1, = 2Adc, I, = 0.4Adc; Cond. A Gain-Bandwith Product f,* 20 | 70 {MHz A-4 | 3306 | 1, = 0.2Adc, V., = 10Vdc, f = 10MHz Output Capacitance Cob _ 45 | pf A-4 | 3236 | V., = 10Vdc, |, = 0, f = IMHz Thermal Resistance Oc C-1 | 3151 2N5661 | 5.0 [C/W 2N5663 | 67 {C/W Turn-on time t..* [0.25 [us A4[ |[I, = 0.5Adc Switching Speeds Turn-off time torr | 1.2 [us Ad | 100C Forward Biased Second Breakdown 2N5661 lye 2| |Adc B-6 | 3051 |V,, = 10Vdc, t = 1Sec Isy8 0.5} Ade B-6 | 3051 | V,, = 40Vde, t = 1Sec lee 19 | |mAdc!] B-6 {| 3051 | Vce = 300Vdc, t = 1Sec 2N5663 Is 2; | Adc B-7 | 3051 | Voge = 7.5 Vde, t = 1Sec ley 0.6 | }Ade B-7 | 3051 | V., = 25Vde, t = 1Sec Is M4 |mAdc} B-7 | 3051 | V.. = 300Vdc, t = 1Sec Unclamped Reverse Biased Second Breakdown! E,, 02; {mj B-8 | 3053 | 1, = 2Adc, L=0.1 mh Clamped Reverse Biased Second Breakdown EL 80 | mj B-9 | 3053 [| I. = 2Adc, L = 40mh, Vem = 300V 150C Collector-Emitter Cutoff Current Vces* | 100 | wAdc | A-5 | 3041 | Vy. = 300Vdc, Cond. C 65C D.C. Current Gain (Note 1) Hee 10 - _ A-6 | 3076 | I, = 0.5Adc, V., = 5Vde Notes: 1. Pulse width = 300yS; duty cycle <2%. * Those parameters marked with a * are JEDEC registered and devices meeting these specifications are available as commercial 2N devices. UNITRODE CORPORATION + 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (7110) 326-6509 TELEX 95-1064 89 PRINTED IN U.S.A.JAN, JANTX, & JANTXV 2N5660 JAN, JANTX, & JANTXV 2N5661 JAN, JANTX, & JANTXV 2N5662 JAN, JANTX, & JANTXV 2N5663 Forward Bias Forward Bias Safe Operating Area Safe Operating Area 2N5660, 2NS5661 2N5662, 2N5663 T. = 100C To = 100C Pulse Pulse ~ = 1ms = 100us Pulse Width = = 1004s =< Cycle = 10% Cycle = Cycle = Cycle - = 10% E 10% rs a 5 f Qo > a o 5 9 e w a o 3} = o 3 | Oo a! I 2N5661 2N5663 1 2 5 10 20 50 100 200300 1 2 5 10 20 50 100 200300 Vg COLLECTOR-EMITTER VOLTAGE (V) Veg COLLECTOR-EMITTER VOLTAGE (V) / Reverse Bias Unciamped Reverse Bias Safe Operating Area __ Second Breakdown Clamped Inductive Switching T, = 28C T= 100C z y= = lone 2 Ee a = Vy = 0.5V E Vag = 2V 8 ae 2 < oO > a < |. al 0 5 1 15 2 1 2 10 20 50 100 200300 Ip COLLECTOR CURRENT (A) Veg ~ COLLECTOR-EMITTER VOLTAGE (V) D.C. Current Gain D.C. Current Gain 2N5660, 2N5662 2N5661, 2N5663 1000 1000 8 8 nN 8 i) So ro 2 8 ny ~ o hye 0.C, CURRENT GAIN 8 hee D.C. CURRENT GAIN 3 wo 2 1 1 1 02 O05 1 2 5 1 2 5 10 01 02 05 1 2 3 1 2 5 10 Ig COLLECTOR CURRENT (A) Ig COLLECTOR CURRENT (A) UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 TEL, (627) 861-6540 TWX (710) 326-6509 * TELEX 95-1064 90 PRINTED IN U.S.A.Saturation Voltages Vacs lp = loys VOLTAGE (Vv) in Veer Is = lene a Veer ba = leys 05 0 02 05 2 2 35 1 2 5 10 Ig +- COLLECTOR CURRENT (A) Switching Speed Characteristics 10 Veg = 100V 5 t= lene . BY a 1, 3 8 2 Rise Time, t, rt, 3 em | Age $a E ~ Lo vty 2 .05 Pd Detay Time, nae: 25C Bia EI .02 150C .01 2 2 . 1 lg COLLECTOR CURRENT (A) Switching Speed Circuits 2N5660, 2N5662 +ig0v Noir Ugg == 15MA 2001 Tektronix A OF Equivalent 2NS661, 2N5663 +100v tere tpg = 25MA 2002 Tektronix or Equivalent UNITRODE CORPORATION * 5 FORBES ROAD LEXINGTON, MA 02173 * TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 JAN, JANTX, & JANTXV 2N5660 JAN, JANTX, & JANTXV 2N5661 JAN, JANTX, & JANTXV 2N5662 JAN, JANTX, & JANTXV 2N5663 Saturation Voltage Temperature Coefficients + n leila < + in + Pa 55C to 25C b A Vee AV TEMPERATURE COEFFICIENTS (mvV/C) | v in 01 02 OF 1 2 5 r 2 5 10 }g-~ COLLECTOR CURRENT (A) Switching Speed Characteristics 10 5 a v g = 1 }- Storage Time, t, I = b___| rm w " 25C - rm 150C TI] Fall Time, t, 2 25C a 2 3 1 2 tg COLLECTOR CURRENT (A) Thermal Response Duty Cycle = 0.5 Ss 2 WwW 2 2g zz 7 ro Gy.(t) = sc wi oo .05 Oy. = 5.0C/w N = for 2N5660, aa tq .02 = 2: eS w x for 2N5662, gui 1 d | z Single = 005 = x -002 002 01.02 05 1 2 65 1 2 5 10 20 50100200 5001000 TIME (milliseconds) 91 PRINTED tN U.S.A.