TYPES 2N5683, 2N5684 P-N-P SINGLE-DIFFUSED SILICON POWER TRANSISTORS FOR POWER-AMPLIFIER AND HIGH-SPEED-SWITCHING APPLICATIONS DESIGNED FOR COMPLEMENTARY USE WITH 2N5685, 2N5686 300 Watts at 25C Case Temperature @ 50-A Rated Continuous Collector Current e Min fy of 2MHzat 10V,5A *mechanical data The case outline falls within JEDEC-TO-3 except for lead diameter. THE COLLECTOR JS IN ELECTRICAL CONTACT WITH THE CASE 1.873 MAK+ 1197 0.312 MIN Oe7s TWF 0.450 0.525 R MAX 250 oO. se 2.043 14 2 LeaDs 635 t2 EMITTER a rN 1.050 MAX MAX 0.235 Fy Ok Kr O= L 9.205 6 sag Pos DIA 0.188 R MAX 0.420 MOLES BOTH ENDS 0.135 MAX be 0.201 SEATING PLANE 1 BASE BE CASE TEMPERATURE MEASUREMENT POINT OIMENSIONS ARE IN INCHES absolute maximum ratings at 25C case temperature (uniess otherwise noted) 2N5683 2N5684 *Collector-Base Voltage -60V ~80V *Collector-Emitter Voltage (See Note -60V -80V *Emitter-Base Voltage -5V -5 V *Continuous Coliector Current Continuous Base Current *Continuous Device Dissipation at (or below) 25 c Case Temperature (See Note 2) Continuous Device Dissipation at (or below) 25C Free-Air Temperature (See Note 3) *Operating Collector Junction Temperature Range *Storage Temperature Range . ee *Terminal Temperature 1/18 Inch from Case for 40 "Seconds : a -50A > a-15Ae +300 W > -5W > 65C to 200C 65C to 200C < 235C NOTES: 1, These values apply when the base-emitter diode is open-circulted. 2. Derate linearly to 20C C case temperature at the rate of 1.715 W/C or refer to Dissipation Derating Curve, Figure 1. 3. Derate linearly to 200C free-air temperature at the rate of 28.6 mW/C or refer to Olssipation Derating Curve, Figure 2, *JEDEC registered data. This data sheet contains all applicable registerad data in effect at the time of publication. TEXAS INSTRUMENTS 2-379 TYPES 2N5683, 2N5684 P-N-P SINGLE-DIFFUSED SILICON POWER TRANSISTORS *electricat characteristics at 25C case temperature (unless otherwise noted) 2N5683 2N5684 PARAMETER TEST CONDITIONS UNIT MIN MAX [MIN MAX Collector-Emitter Vv Io = ~200 mA, tp = 0, See Note 6 ~60 80 Vv (BR}CEO Breakdown Voltage c m B 6 Note Voce = 30V, Ig =O -1 \CEO Collector Cutoff Current mA Vce = 40V, Ig =O -1 Vce = -60V, Vee=1.5V -2 Vce = -80V, Vee=15V -2 IcEV Collector Cutoff Current cE BE mA Vce = 60V, VeeE=15V, To = 150C 10 Vce = -80V, Vee =1.5V, To = 150C 10 \ Collector Cutoff Current Vog = 60V. te 0 7? A actor Cutoff Curren cao Vog-80V, Ip=0 7) leEBO Emitter Cutoff Current Veg =-5V, ic =0 -5 6i mA Static Forward Current Voce =-2V, Ic =-25A 15 60] 15 60 hee . See Notes 6 and 7 Transfer Ratio Voce =-5V, Ig = 5OA 5 5 . Ig=-25A, Ic =-25A -2 VBE Base-Emitter Voitage See Notes 6 and 7 Vv Vee=-2V, ic= -2 Collector-Emitter Ip =-2.5A, Io = -25A -1 VCE (sat) : See Notes 6 and 7 4 V Saturation Voltage ig=10A, Ic =-5OA -5 - Small-Signal Common-Emitter hte . Voce =-5V, Ic =-10A, f= 1kHz 15 15 Forward Current Transfer Ratio Smali-Signal Commor-E mitter Vv =-10V, Ic =5SA, f = 1 MHz 2 2 Pre! Forward Current Transfer Ratio cE c Common-Base Open-Circuit Cobo . Vox = 10V, Ie = 0, f= 0.1 MHz 2000 2000/ pF Output Capacitance NOTES: 6. These parameters must be measured using pulse techniques. ty, = 300 us, duty cycle < 2%. 7. These parameters are measured with voitage-sensing contacts separate from the current-carrying contacts and located within 0.125 PyMaximum Continuous Device DissipationW 400 350 300 250 200 150 100 50 0 0 inch from the davica body. THERMAL INFORMATION CASE TEMPERATURE DISSIPATION DERATING CURVE Rasc <0.58C/w 25 50 75 100 125 150 175 200 TcCase TemperatureC FIGURE 1 FREE-AIR TEMPERATURE DISSIPATION DERATING CURVE IN ReJA <35C/w NX N = 6 3S a5 3 Qo 8 4 a 3 3 = 5 Oo 2 E 3 gy 7 xo Qo 25 50 75 100 125 150 TaFree-Air TemperatureC FIGURE 2 175 200 2-380 TEXAS INSTRUMENTS TEXAS INSTRUMENTS RESERVES THE RIGHT TO MAKE CHANGES AT ANY TIME iN ORDER TO IMPROVE DESIGN ANDO TO SUPPLY THE BEST PRODUCT POSSIBLE. Prot @ Typ Ta=25 0C Tc=25 0C VCEO Icb hee @ Ic type (100 C) (100 9C) min max min max PNP NPN Ww Ww Vv A A TIP 527 4 (60) 200 - 8 20 100 4 TIP 544 5 150 100 6 25 100 -3 TIP 545 5 150 120 -6 20 80 -3 TIP 546 5 150 140 -6 16 60 -3 TIP 645 TIP640 5 175 - 60 10 10 5 TIP 646 TIP641 5 175 80 10 10 -5 TIP 647 TIP 647 5 175 100 10 10 5 2N 3789 150 60 -10 25 90 1 2N 3790 150 80 ~10 25 90 -1 2N 3791 150 60 10 50 180 -1 2N 3792 150 80 10 50 180 -1 2N 4901 87,5 40 -5 20 80 -1 2N 4902 87,5 ~ 60 -5 20 80 1 2N 4903 87,5 80 -5 20 80 -1 2N 4904 87,5 40 5 25 100 -1 2N 4905 87,5 60 -5 25 100 1 2N 4906 87,5 80 -5 25 100 -1 2N 4999 2 (20) 80 2 30 90 1 2N 5001 2 (20) 80 2 70 200 1 2N 5003 (33,3) 80 5 30 90 2,5 2N 5005 (33,3) 80 5 70 200 2,5 2N 5147 1 (4) 80 2 30 90 1 2N 5149 1 (4) 80 2 70 200 1 2N 5151 1 (6,7) 80 5 30 90 2,5 2N 5153 1 (6,7) 80 5 70 200 2,5 2N 5333 (15) 80 -5 30 120 -1 2N 5683 5 300 60 50 15 25 2N 5684 5 300 80 50 15 25 2N 6329 5 200 60 30 12 15 2N 6330 5 200 80 30 12 15 2N 6331 5 200 100 20 12 15 3-16 TEXAS INSTRUMENTS fT lcEs @ VCE Gehause Anwendungen, Bemerkungen min (ICE) package applications, remarks MHz BA Vv 40 ( 500} 100 TO-3 Verstarker, schneiler Schalter amplifier, switch 1 ( 5000) 50 TO-3 1 ( 5000) 60 TO-3 Verstarker, Schalter amplifier, switch 1 ( 5000) 70 10-3 Komplementar zu 2N 5758, 2N 5759, 2N 5760 complementary to 2N 5758, 2N 5759, 2N 5760 1 ( 2000) ~ 30 TO-3 Verstarker, Schalter, Anwendung in Netzger. 1 ( 2000) 40 TO-3 Komplementar zu TIP 640, TIP 641, TIP 642 1 ( 2000) - 50 amplifier, switch, power supply complementary to TIP 640, TIP 641, TIP 642 {--10000) 30 TO-3 Verstarker, Schalter (10000) 40 TO-3 amplifier, switch {10000) - 30 TO-3 (~10000) 40 TO-3 ( 1000) 40 TO-3 (- 1000) ~ 60 TO-3 ( 1000) 80 TO-3 ( 1000) 40 TO-3 ( 1000) 60 TO-3 ( 1000) 80 TO-3 50 (0,05) 40 TO-59 Fir Computeranwendung 60 { 0,05) 40 TO-59 komplementar zu 2N 4998, 2N 5000 computer application complementary to 2N 4998, 2N 5000 60 (0,05) 40 TO-59 Fiir Computeranwendung 70 (0,05) 40 TO-59 komplementar zu 2N 5002, 2N 5004 computer application complementary to 2N 5002, 2N 5004 50 { 0,05) 40 TO-39 Fir Computeranwendung 60 (0,05) 40 TO-39 komplementar zu 2N 5148, 2N 5150 computer application complementary to 2N 5148, 2N 5150 60 { 0,05) 40 TO-39 Fiir Computeranwendung 70 { 0,05) 40 TO-39 komplementar zu 2N 5152, 2N 5154 computer application complementary to 2N 5152, 2N 5154 30 - 10 - 90 TO-5 Verstarker, Schalter amplifier, switch 2 (~ 1000) 30 TO-3 Verstarker, schneller Schalter 2 { 1000) 40 TO-3 komplementar zu 2N 5685, 2N 5686 amplifier, high-s peed switch complementary to 2N 5685, 2N 5686 3 { 1000) 30 TO-3 Verstarker, schneller Schalter 3 { 1000) 40 TO-3 komplementar zu 2N 6326, 2N 6327, 2N 6328 3 {( 1000) - 50 TO-3 amplifier, high-speed switch complementary to 2N 6326, 2N 6327, 2N 6328 TEXAS INSTRUMENTS 3-17