POWER TRANSISTORS JAN, JANTX, & JANTXV 2N5664 JAN, JANTX, & JANTXV 2N5665 5 Amp, 300V, Planar NPN JAN, JANTX, & JANTXV 2N5666 JAN, JANTX, & JANTXV 2N5667 FEATURES DESCRIPTION @ Meets MIL-S-19500/455 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 2N5664 2N56685 2N5666 2N5667 Collector-Base Voltage, Vg ....scsssissssccsssnsececccecttnnnsanrnees Cotlector-Emitter Voltage, Vogo -. Emitter-Base Voltage, Vigo .. D.C. Collector Current, ig .... Peak Collector Current, Ic Power Dissipation 25C Ambient ......... 100C Case ou... Operating and Storage Temperature Range .. MECHANICAL SPECIFICATIONS JAN, JANTX, & JANTXV 2N5664 JAN, JANTX, & JANTXV 2N5665 TO-66 H J BASE TO E EMITTER A Ly 8 m ht Co h > 4 t + H Nek Oo 7 rd JAN, JANTX, & JANTXV 2N5666 JAN, JANTX, & JANTXV 2N5667 TO-5 1 7.75-8.5) MIN. 432 + 5.08 2.54 .7874.076 (Uw) 92 ae UNITRODEJAN, JANTX, & JANTXV 2N5664 JAN, JANTX, & JANTXV 2N5666 ELECTRICAL SPECIFICATIONS (at 25C unless noted) JAN, JANTX, & JANTXV 2NS665 JAN, JANTX, & JANTXV 2N5667 2N5664, 2NS5666 iss 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.,.* 250 | | Vde | A-2 | 3011 | 1, = 10mAdc; R,, = 1008, Cond. B Collector-Emitter Breakdown Voltage (Note 1) BV." 200 | Vde | A-2 | 3011 1, = 10mAdc; Cond. D Emitter-Base Breakdown Voltage BV..." 6.0 ~ | Vde | A-2 | 3026 | 1, = 10xAdc; Cond. D Collector-Emitter Cutoff Current loes* Q.2 | nAde | A-2 | 3041 VI = 200Vde; Cand. Collector-Base Cutoff Current beso | 01 | Adc | A-2 | 3036 | V., = 200Vdc; Cond. D Collector-Base Cutoff Current beso | 10 | mAdc] A-2 | 3036 | V., = 250Vde; Cond. D D.C. Current Gain (Note 1) h,. 40 { A3 | 3076 |1,=O.5Adc, V,, = 2Vde D.C. Current Gain (Note 1) h.* 40 | 120 | ~ A-3 | 3076 = 1de, Ve, = SVde D.C. Current Gain (Note 1) hee 15 |- A-3 | 3076 | 1, = 3Adc, V., = 5Vde D.C. Current Gain (Note 1) hee Sif f A-3 | 3076 | 1, = 5Adc, V,, = 5Vde Collector Saturation Voltage (Note 1) Vee (saty | | 0-4 | Vde A-3 | 3071 | 1, = 3Ade, |, = 03Ade Collector Saturation Voltage (Note 1) Vee (sat) | | 10 | Vde A-3 | 3071 = 5Ade, I, = 1Ade Base Saturation Voltage (Note 1) Vie (satyt | | 12 Vde | A3 | 3066 | |, = 3Adc, |, = 0.3Ade; Cond. A Base Saturation Voltage (Note 1) Vue (sat} ~~ 15 | Vde | A-3 | 3066 I, = 5Ade, 1, = 1Adc; Cond. A Gain-Bandwith Product f,* 20 | 70 | MHz | A-4 | 3306 | t, = 0.5Adc, V,, = 5Vde, f = LOMHz Output Capacitance C,, | 120 | of AA | 3236 | V., = 10Vde, | =0, f= IMHz Thermal Resistance Og C-1 } 3151 2N5664 | 33 | C/W 2N5666 | 67 | C/W Switching Speeds Turn-on rime te [928 [as a {le= tage Turn-off Time ta L5 | xs A-4 100C. Forward Biased Second Breakdown 2N5664 los 5 | Adc | B-6 | 3051 | V,, = 6Vde, t = Isec sn 0.75 } Adc | B-6 } 3051 | Vo, = 40Vdc, t = lsec ln 43 | mAdc} B-6 | 3051 | V,, = 200Vdc, t = lsec 2N5666 len 5 | Adc |B-7 | 3051 | V,, = 3Vdc, t = Isec los 0.4 | Ade | 8-7 | 3051 | V,, = 37.5Vde, t = sec lee 27. | | mAdc] B-7 | 3051 | V,, = 200Vdc, t = Isec Unclamped Reverse Biased Second Breakdown E. 1.25 |m B-8 | 3053 | 1, = 5Adc,L = 0.1mh Clamped Reverse Biased Second Breakdown E. 500 |m B-9 | 3053. |!, = 5Adc, = 40mh, Vovemp = 200V 150C Collector-Emitter Cutoff Current Lees | 100 | Ade; A-5 | 3041 Vi 200Vde, Cond. C 65C D.C. Current Gain (Note 1) h 15 a A6 | 3076 | |, =1Adc, V,, = 5Vde Notes: 1. Pulse width = 300,S; 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 93 PRINTED IN U.S.A.JAN, JANTX, & JANTXV 2N5664 JAN, JANTX, & JANTXV 2N5666 ELECTRICAL SPECIFICATIONS (at 25C unless noted) JAN, JANTX, & JANTXV 2N5665 JAN, JANTX, & JANTXV 2N5667 2N5665, 2N5667 iss MiIL-STO-750 Test Symbol Min. Max.[ Units | group {Method Test conditions Visual and mechanical A-1 | 2071 See Mechanical Data 25C Cotlector-Emitter Breakdown Voltage (Note 1)} BV..." 400 [Vde | A2 | 3011 { (, = lOmAdc; R,, = 1002, Cond. B Collector-Emitter Breakdown Voitage (Note 1) | BV..." 300 | Vde | A-2 | 3011 | I, = l0mAdc; Cond. D Emitter-Base Breakdown Voltage BV ao 6 ~ }Vde | A-2 {| 3026 |, == 10Adc; Cond. D Collector-Emitter Cutoff Current toes | 0.2 | wAde | A2 | 3041 | V,, = 300Vde; Cond. C Cotlector-Base Cutoff Current Neve | O21 | pAde | A-2 | 3036 | V., = 300Vde; Cond. D Collector-Base Cutoff Current love | 10 | mAdc] A-2 | 3036 | V., = 400Vdc; Cond. OD D.C. Current Gain (Note 1) h,.* 25 - | A-3 | 3076 | |, = 0.5Adc, Vo, = 2Vde D.C. Current Gain (Note 1) h,.* 25 Bj A-3 | 3076 | 1, = 1Ade, V,, = 5Vde D.C. Current Gain (Note 1) hye* 10 |- A-3 | 3076 | I, = 3Ade, V., = SVde D.C. Current Gain (Note 1) hy, 5 -f- A-3 | 3076 | J, = 5Adc, V,, = SVde Collector Saturation Voltage (Note 1) Vee (sat)*#} | 0-4 |Vde | AS | 3071 | 1, = 3Adc, I, = 0.6Ade Collector Saturation Voltage (Note 1) Vee (sat) - | 10 [Vdc | A3 | 3071 } 4, = 5Ade, I, = 1Ade Base Saturation Voltage (Note 1) Vee (sat)*| | 2 | Vde | A-3 | 3066 | I. = 3Adc, |, = 0.6Ade; Cond. A Base Saturation Voltage (Note 1) Vee (sat) | 15 [Vde' 1 A3 | 3066 | 1, = 5Adc, {, = 1Adc; Cond. A Gain-Bandwith Product f* 20 70 | MHz | A-4 | 3306 | I, = 0.5Adc, V., = 5Vde, f = 10MHz Output Capacitance Cy _ 90 | pf A-4 | 3236 | V,, = 10Vdc, |, =0, f = IMHz Thermal Resistance O06 C-1 | 3151 2N5665 -- | 33 | C/W 2N5667 | 67 | C/W Switching Speeds Turn-on time t* (025 fus A-4 |i, = Ade Turn-off time to ~_ 2.0 Jus A-4 _ 100C Forward Biased Second Breakdown 2N5665 lore 5 |Adce | B-6 | 3051 | V,, = 6Vdc, t = Isec Is 0.75 jAdce | B-6 | 3051 | V., = 40Vdc, t= 1 sec los 21 | mAdc{ B-6 | 3051 | V,, = 300Vdc, t = Isec 2N5667 los 5 jAde |B-7? } 3051 | V., = 3Vdc, t = lsec lon 0.4 |Adc | B-7 | 3051 | V., = 37.5Vdc, t = Isec lon 14 |nAdc!}B-7 | 3051 | V., = 300Vdc, t = lsec Unclamped Reverse Biased Second Breakdown Eon 1.25 mj B-8 | 3053 | 1, = 5Adc,L = 0.1mh Clamped Reverse Biased Second Breakdown coy 500 |mj B-9 | 3053 [J, = 5Adc, L = 40mh, V_,,, = 300V 150C Collector-Emitter Cutoff Current 1a.* | 100 | Adc | A-5 | 3041 Vi= 300Vdc, Cond. C 65C D.C. Current Gain (Note 1) Nee 10 i A-6 | 3076 | |, = 1Adc, V., = 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 94 PRINTED IN U.S.A.Forward Bias Safe Operating Area 2N5664, 2N5665 10. T. = 100C 5 100us! Pulse Width - = 100us =< 2 Cycle. 5 10% wo4 GOS 5 S Oo 2 a a1 o 1 95 Lv 02 01 1 2 10 20 50 100 200300 Veg COLLECTOR-EMITTER VOLTAGE (V) Unclamped Reverse Bias Second Breakdown a 2 = Cc 7 z= i = oO z t | oO > a. z I. a 8 1 2 3 4 5 I, COLLECTOR CURRENT (A) 0.C. Current Gain 2N5664, 2N5666 1000 500 = 200 ft a E 100 2 & = 50 2 oo JS 20 a | 10 2 1 01 002 005 (ol? 5 1 2 5 10 i, COLLECTOR CURRENT (A) UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 + TELEX 95-1064 95 JAN, JANTX, & JANTXV 2N5664 JAN, JANTX, & JANTXV 2N5666 JAN, JANTX, & JANTXV 2N5665 JAN, JANTX, & JANTXV 2N5667 Forward Bias Safe Operating Area 2N5666, 2N5667 Pulse Width To. = 100C = Ims Width | = 100us Cycie = 10% Cycle = 10% $, COLLECTOR CURRENT (A) 1 2 5 10 20 50 100 200 300 Veg COLLECTOR-EMITTER VOLTAGE (V) Reverse Bias Safe Operating Area Clamped Inductive Switching 2N5664, 66 67 \g COLLECTOR CURRENT (A) 1 2 53 10 20 50 200 200 300 Veg ~ COLLECTOR VOLTAGE (V) B.C. Current Gain 2N5665, 2N5667 1000 wn o 3 8 ran Q 6 pp ~ D.C. CURRENT GAIN 6 8 8 h, w 1 01 02 05 1 2 5 1 2 5 10 ig COLLECTOR CURRENT (A) PRINTED IN U.S.A.JAN, JANTX, & JANTXV 2N5664 JAN, JANTX, & JANTXV 2N5666 JAN, JANTX, & JANTXV 2N5665 JAN, JANTX, & JANTXV 2N5667 Saturation Voltage Saturation Voltages Temperature Coefficients 5 - we asic 2 ns 0 > E 2 2 z aw = Fe a a wl Vor, 'n = loys | tt / ry < 5 2 Z > 7) g < y 2 Ay wi 25C to 150C Veg ly =! t/| ii 1 St gs 1 <S5C to 25C Vee, Ia = boys > = Le 4 5 ES |_| . 01 02 05 2. 2 1 2 #45 10 01 02 05 2. 2 #58 1 2 #5 10 ig COLLECTOR CURRENT (A) lg COLLECTOR CURRENT (A) Switching Speed Switching Speed Characteristics Characteristics 1 10 T Voc = 100V 5 7 5 In = I = Vee = 100V - =! 3 a= beso | 180C pom zu wa Ph 2, $ 2 a : 1 1 z 2 150C ise Time, t, te 5 B SS Lae g | Storage Time, t, Sy $4 cH - E SEE 2 ac ~~ E E ty a | ~ J = SS 25 on rt 0S I 2 . P| 10 15oc_ | Detay Time, t; Lite | : banemenparat 02 | asc .2 --Fali Time, t, ! hw 25C 01 i a 5 1 2 5 5 1 2 5 lg COLLECTOR CURRENT (A) Ig COLLECTOR CURRENT (A) Switching Speed Circuits Therinal Response +100V ty) = le = 30mA Tektronix or Equivatent yee ft) = r(t) Oye 8, = 3.3C/w for 2N5664, 65 0, = 6.7C/w for 2N5666, 67 r(t) NORMALIZED TRANSIENT THERMAL IMPEDANCE Tektronix 5414 or Equivalent 01.02 05 .1 2 5 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 96 PRINTED IN U.S.A.