ALPHANUMERIC INDEX CROSS-REFERENCE (Continued) Motorola Motorola Motorola Motoroia Industry Direct Similar Page Industry Direct Similar Page Part Number Replacement Replacement Number Part Number Replacement Replacement Number 2N6283 2N6283 3-172 2N6323 MJ10015 3-606 2N6283JAN 2N6283JAN 3-172 2N6324 MJ10015 3-606 2N6283JTX 2N6283JTX 3-172 2N6325 MJ10015 3-606 2N6283JTXV 2N6283JTXV 3-172 2N6326 2N6328 - 2N6284 2N6284 3-172 2N6327 2N6328 - 2N6284JAN 2N6284JAN 3-172 2N6328 2N6328 - 2N6284JTX 2N6284JTX 3-172 2N6329 2N5884 3-127 2N6284JTXV 2N6284JTXV 3-172 2N6330 2NS884 3-127 2N6285 2N6285 3-172 2N6331 2N5884 3-127 2N6286 2N6286 3-472 2N6338 2N6338 3-188 2N6286JAN 2N6286JAN 3-172 2N6338JAN 2N6338JAN 3-188 2N6286JTX 2N6286JTX 3-172 2N6338JTX 2N6338JTX 3-188 2N6286JTXV 2N6286JTXV 3-172 2N6338JTXV 2N6338JTXV 3-188 2N6287 2N6287 3-172 2N6339 2N6339 3-188 2N6287JAN 2N6287JAN 3-172 2N6340 2N6340 3-188 2N6287JTX 2N6287JTX 3-172 2N6341 2N6341 3-188 2N6287JTXV 2N6287JTXV 3-172 2N6341JAN 2N6341JAN 3-188 2N6288 2N6288 3-151 2N6341JTX 2N6341JTX 3-188 2N6289 2N6288 3-151 2N6341JTXV 2N6341TXV 3-188 2N6290 2N6292 3-151 2N6354 2N6339 3-188 2N6291 2N6292 3-151 2N6355 2N6057 3-143 2N6292 2N6292 3-151 2N6356 2N6057 3-143 2N6293 2N6292 3-151 2N6357 2N6058 3-143 2N6294 2N6294 3-177 2N6358 2N6058 3-143 2N6295 2N6295 3-177 2N6359 2N5885, 3-127 2N6296 2N6296 3-177 2N6371 2N3055 36 2N6297 2N6297 3-177 2N6372 2N5428 3-101 2N6298 2N6298 3-147 2N6373 2N5428 3-101 2N6298JAN 2N62985AN 3-147 2N6374 2N5428 3-101 2NG298JTX 2N6298JTX 3-147 2N6377 2N6377 3-194 2N6298UTXV 2N6298JTXV 3-147 2N6378 2N6378 3-191 2N6299 2N6299 3-147 2N6378JAN 2N6378JAN 3-191 2N6299JAN 2N6299JAN 3-147 2N6378JTX 2N6378JTX 3-191 2N6299JTX 2N6299JTX 3-147 2N6378JTXV 2N6378JTXV 3-191 2N6299JTXV 2N6299JTXV 3-147 2N6379 2N6379 3-191 2N6300 2N6300 3-147 2N6379JNAN 2N6379JAN 3-191 2N6300JAN 2N6300JAN 3-147 2N6379JTX 2N6379JTX 3-191 2N6300JTX 2N6300JTX 3-147 2N6379JTXV 2NG379JTXV 3-191 2N6300JTXV 2NG300JTXV 3-147 2N6380 2N6377 3-191 2N6301 2N6301 3-147 2N6381 2N6378 3-191 2N6301JAN 2N6301JAN 3-147 2N6382 2N6379 3-191 2N6301JTX 2N6301JTX 3-147 2N6383 2N6383 3-195 2N6301 JTXV 2N6301JTXV 3-147 2N6383JAN 2N6383JAN 3-195 2N6302 2N5630 3-105 2N6383JTX 2N6383JTX 3-195 2N6303 2N6303 3-32 2N6383JTXV 2N6383NTXV 3-195 2N6306 2N6306 3-181 2N6384 2N6384 3-195 2N6306JAN 2N6306JAN 3-181 2N6384J AN 2N6384JAN 3-195 2N6306JTX 2N6306JTX 3-181 2N6384JTX 2N6384JTX 3-195 2N6307 2N6307 3-181 2N6384JTXV 2N6384JTXV 3-195 2N6308 2N6308 3-181 2N6385 2N6385 3-195 2N6308JAN 2N6308JAN 3-184 2N6385JAN 2N6385JAN 3-195 2N6308JTX 2N6308JTX 3-181 2N6385JTX 2N6385JTX 3-195 2N6312 2N6318 3-185 2N6385JTXV 2N6385JTXV 3-191 2N6313 2N6318 3-185 2N6386 2N6386 3-199 2N6314 2N6318 3-185 2N6387 2N6387 3-199 2N6315 2N5428 3-101 2N6388 2N6388 3-199 2N6316 2N5428 3-101 2N6406 MJE171 3-862 2N6317 2N6317 3-185 2N6407 MJE172 3-862 2N6318 2N6318 3-185 2N6408 MJE181 3-862 2N6322 MJ10015 3-606 2N6409 MJE182 3-862 *Consult Motorola if a direct replacement is necessary.TABLE 5 PLASTIC TO-220 (Continued) Resistive Switching coe "ce Olpus) Device Type hrE @le a is @\c Mite rovers Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 2 45 BD239 BD240 15 min 1 3 30 60 BD239A BD240A 15 min 1 3 30 TIP110## TIP115## 500 min 2 1.7 typ | 1.3 typ 2 25# 50 80 BD239B BD240B 15 min 1 3 30 TIP1114# TIPIIGH#E 500 min 2 1.7 typ | 1.3 typ 2 25# 50 100 BD239C BD240C 25 min 4 3 30 TIP112## TIP117## 500 min 2 1.7 typ | 1.3 typ 2 25# 50 400 BUX84 30 min 0.1 3.5 1.4 1 4 50 450 BUX85 30 min 0.1 3.5 1.4 1 4 50 900 MJE1320 3 min 1 4typ 0.8 typ 1 80 25 700 MJE8500 7.8 min 0.5 4 2 1 65 750 MJE12007 1.1 min 2 1 2 4typ 65 800 MJE8501 7.5 min 0.5 4 2 1 65 3 40 TIP31 TIP32 25 min 1 0.6 typ | 0.3 typ 1 3 40 45 BD241 BD242 25 min 1 3 40 60 BD241A BD242A 25 min 1 3 40 TIP31A TIP32A 25 min 1 0.6 typ | 0.3 typ 1 3 40 80 BD241B BD242B 25 min 1 3 40 TIP31B TIP32B 25 min 1 0.6 typ | 0.3 typ 1 3 40 100 BD241C BD242C 25 min 1 3 40 TIP31C TIP32C 25 min 1 0.6 typ | 0.3 typ 1 3 40 750 MJE16032 4min 3 2 1.5 2 80 850 MJE16034 4 min 3 2 1.5 2 80 4 45 2N6121 2N6124 25/100 1.5 0.4 typ | 0.3 typ 1.5 2.5 40 60 2N6122 2N6125 25/100 1.5 0.4 typ | 0.3 typ 1.5 25 40 BDS535 25 min 2 3 50 MJESOOT## | MJE700T## 750 min 1.5 1# 40 80 2N6123 20/80 15 0.4 typ | 0.3 typ 1.5 2.5 40 300 MJE13004 6/30 3 3 0.7 3 4 60 400 MJE13005 6/30 3 3 0.7 3 4 60 5 60 TIP120## TIP1254## 1k min 3 1.5 typ | 1.5 typ 3 4# 65 80 TIP121#4# TIP126#4# 1k min 3 1.5 typ | 1.5 typ 3 4# 65 100 TIP122## TIP127## 1k min 3 1.5 typ |} 1.5 typ 4 4# 75 250 2N6497 10/75 2.5 1.8 0.8 2.5 5 80 300 2N6498 10/75 25 1.8 0.8 2.5 5 80 400 MJE13070 8 min 3 15 0.5 3 80 450 MJE16002 5 min 5 3 0.3 3 80 MJE16004 7 min 5 2.7 0.35 3 80 700 MJE8502 7.5 min 1 4 2 2.5 80 800 MJE8503 7.5 min 1 4 2 2.5 80 6 40 TiP41 TIP42 15/75 3 0.4 typ | 0.15 typ 3 3 65 45 BO243 BD244 15 min 3 3 65 60 BD243A BD244A 15 min 3 3 65 TIP41A TIP42A 15/75 3 0.4 typ | 0.15 typ 3 3 65 80 BD243B BD244B 15 min 3 3 65 TIP41B TIP42B 15/75 3 0.4 typ | 0.15 typ 3 3 65 100 BD243C BD244C 15 min 3 3 65 TIP41C TIP42c 15/75 3 0.4 typ | 0.15 typ 3 3 65 7 30 2N6288 2N6111 30/150 3 0.4 typ | 0.15 typ 3 4 40 # (hfel @ 1 MHz, ## Darlington (continued)MOTO = SEMICONDUCTOR ee TECHNICAL DATA 2N6107, 2N6109 2N6111 NPN 2N6288, 2N6292 COMPLEMENTARY SILICON PLASTIC POWER TRANSISTORS . designed for use in general-purpose amplifier and switching applications. DC Current Gain Specified to 7.0 Amperes hee = 30-150 @ Ig = 3.0 Adc 2N6111, 2N6288 = 2.3 (Min) @ Ig = 7.0 Adc All Devices Collector-Emitter Sustaining Voltage VCEO\(sus) = = 2 Vde (Min) ~.2N6111, 2N6288 O Vde (Min) 2N6109 = = Vdc (Min) ~ 2N6107, 2N6292 @ High Current Gain Bandwidth Product ft = 4.0 MHz (Min) @ Ic = 500 mAdc 2N6288, 90, 92 = 10 MHz (Min) @ tc = 500 mAdc 2N6107, 09, 11 TO-220AB Compact Package TO-213AA Leadform Also Available *MAXIMUM RATINGS Rating Symbol | 2nezes | 2neros | 2Nezez | Unit Collector-Emitter Voltage VcEO 30 50 70 Vde Collector-Base Voltage Vos 40 60 80 Vde Emitter-Base Voltage VeB 5,0 Vde Collector Current ~ Continuous lc __. 7.0 _ Ade Peak ___- 10 _____ Base Current Ip 3.0 _ Adc Total Power Dissipation Pp Watts @ Te = 25C ___ 40 _______ wre Derate above 25C _ 0.32 Operating and Storage Junction Ty. Tstq | <<-65 to +150 Temperature Range THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case Rec 3.125 c/w *Indicates JEDEC Registered Data FIGURE 1 POWER DERATING Py, POWER DISSIPATION (WATTS) o 20 40 60 80 100 120 140 160 Tc, CASE TEMPERATURE (C) 7 AMPERE POWER TRANSISTORS COMPLEMENTARY SILICON 30-50~70 VOLTS 40 WATTS NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2, CONTROLLING DIMENSION: INCH. 3. DIM Z DEFINES A ZONE WHERE ALL BODY AND LEAD IRREGULARITIES ARE ALLOWED. STYLE 1: PIN 1. BASE 2. COLLECTOR 3. EMITTER 4. COLLECTOR CASE 2214-04 TO-220AB 3-1512N6107, 2N6109, 2N6111 PNP, 2N6288, 2N6292 NPN ELECTRICAL CHARACTERISTICS (T = 25C unless otherwise noted) [ Characteristic I Symbot I Min I Max I Unit } OFF-CHARACTERISTICS Collector-Emitter Sustaining Voltage (1) VCEO (sus) Vde {Ig = 100 mAde, tg = 0) 2N6111, 2N6288 30 _ 2N6109 50 - 2N6107, 2N6292 70 _ Collector Cutoff Current IcEO mAdc (VCE 2 20 Vde, Ig = 0) 2N6111, 2N6288 - 1.0 (VcE = 40 Vdc, Ig = 0) 2N6109 - 1.0 (VcE = 60 Vde, Ig = 0) 2N6107, 2N6292 - 1.0 Collector Cutoff Current IceEx BAdC (VE = 40 Vde. VeBioff) = 1.5 Vde) 2N6111, 2N6288 - 100 (VcE = 60 Vdc. Vegioft) = 1.5 Vde) 2N6109 ~ 100 (VcE = 80 Vdc, VeBiott) = 1.5 Vde) 2N6107, 2N6292 - 100 (Vee = 30 Vdc, VeBioff) = 1-5 Vde, To = 150C) 2N6111, 2N6288 ~ 2.0 mAde (VcE = 50 Vdc, VEeB(off) = 1.5 Vdc, Te = 150C) 2N6109 - 2.0 (VcE = 70 Vdc, Veg (off) = 1.5 Vdc, Tc = 150C) 2N6107, 2N6292 - 2.0 Emitter Cutoff Current 'EBO - 1.0 mAdc (Vge = 5.0 Vdc, Ic = 0} ON CHARACTERISTICS (1) DC Current Gain hee - (ic = 2.0 Adc, Vcg = 4.0 Vdc) 2N6107, 2N6292 30 150 (I = 2.5 Adc, Veg = 4.0 Vdc) 2N6109 30 150 (Ic = 3.0 Adc, Voge = 4.0 Vde) 2N6111, 2N6288 30 150 (tc = 7.0 Adc, Vcg = 4.0 Vde) All Devices 2.3 - Coliector-Emitter Saturation Voltage VCE (sat) - 3.5 Vde (I = 7.0 Adc, Ip = 3.0 Adc) Base-Emitter On Voltage VBE (on) - 3.0 Vde {Ic = 7.0 Adc, VcE = 4.0 Vde) DYNAMIC CHARACTERISTICS Current Gain Bandwidth Product (2) fr MHz (Ig = 500 mAdc, VcE = 4.0 Vdc, f gest = 1.0 MHz) 2N6288, 92 4.0 _ 2N6107, 09, 11 10 7 Output Capacitance Cob _ 250 pF (Vg = 10 Vde, Ig = 0, f = 1.0 MHz) Small-Signat Current Gain , Nte 20 - - {Ic = 0.5 Ade, Veg = 4.0 Vac, f = 50 kHz) Indicates JEDEC Registered Data. (t}Pulse Test: Pulse Width < 300 us, Duty Cycle < 2.0%. (2)f7 = 1 hfe 1 frase FIGURE 2 SWITCHING TIME TEST CIRCUIT FIGURE 3 TURN-ON TIME 20 vec 30V 1.0 07 Rc 05 ag SCOPE % os 2 a2 = 51 1 . 0.1 tr, tf=10 ns L 1 0.07 DUTY CYCLE = 1.0% = AV = 9.05 Rg and Rc VARIED TO OBTAIN DESIRED CURRENT LEVELS 0.03 D1 MUST BE FAST RECOVERY TYPE, eg: 0.02 0.07 0.1 02 03 0.6 1.0 20 3.0 5.0 7.0 MB05300 USED ABOVE Ig ~100 mA ip. COLLECTOR CURRENT (AMP) MS06100 USED BELOW ig ~100 mA 3-152r{t), TRANSIENT THERMAL RESISTANCE (NORMALIZED) ic, COLLECTOR CURRENT {AMPS} t, TIME (us) 2N6107, 2N6109, 2N6111 PNP @ 2N6288, 2N6292 FIGURE 4 THERMAL RESPONSE > of ee yo ao Zaucit) = rt) Rasc 01 0.07 Rac = 3.125CUW MAX 0.08 | | D CURVES APPLY FOR POWER uke PULSE TRAIN SHOWN 0.03 READ TIME AT ty 0.02 tg not DUTY CYCLE, D = ty, ta Tyipk) ~Tc = Pipk) ZaJCith 001 0.02 005 O12 05 10 20 50 8600 5 100200 500 1.0k t. TIME (ms) FIGURE 5 ACTIVE-REGION SAFE OPERATING AREA There are two limitations on the power handling abil- 18 10 ity of a transistor: average junction temperature and 70 second breakdown. Safe operating area curves indicate 5.0 Ic-VcE limits of the transistor that must be observed 30 for reliable operation; i.e., the transistor must not be . subjected to greater dissipation than the curves OT cunnent Lt indicate. 1.0 SECONDARY The data of Figure 5 is based on TJ(pk) = 150C; Tc . BREAKDOWN LIMIT is variable depending on conditions. Second breakdown oe THERMAL LIMIT pulse limits are valid for duty cycles to 10% provided , (@ Te = 26C TJ(pk) = 150C. TJ(pk) may be calculated from the data 03 (SINGLE PULSE) in Figure 4. At high case temperatures, thermal limita- 0.2 tions will reduce the power that can be handled to val- 0.15 imitati i 1o 2030 60 70 10 2 30 5070100 pes less than the limitations imposed by second Vee. COLLECTOR-EMITTER VOLTAGE (VOLTS) wn. FIGURE 6 TURN-OFF TIME FIGURE 7 CAPACITANCE 300 200 Ty == 25C 3 = 100 S <a a 70 & 3 50 , 30 0.07 0.1 02 03 05 1.0 20 30 50 70 0.5 1.0 20 30 50 10 2 30 = (80 Ic, COLLECTOR CURRENT (AMP) Vp, REVERSE VOLTAGE (VOLTS) 3-153