ALPHANUMERIC INDEX CROSS-REFERENCE (Continued) Motorola Motorola Motorola Motorola Industry Direct Similar Page Industry Direct Similar Page Part Number Replacement Replacement Number Part Number Replacement Replacement Number BD243A BD243A 3-286 8D312 2N3791 3-56 BD243B BD243B 3-286 BD315 2N5629 3-105 BD243C BD243C 3-286 BD316 BD318 3-290 BD244 BD244 3-286 BD317 2N5629 3-105 BD2444 BD244A 3-286 80318 BD318 3-290 BD244B BD244B 3-286 BD329 MJE200 3-866 BO244C BD244C 3-286 8D330 MJE210 3-866 BO249 BD249 - BD331 BD897 3-320 BD2d9A BD249B _ 8D332 BD898 3-322 BD249B BD249B - BD333 BD899 3-320 BO249 BD249C _ BD333 6D902 3-322 BD250 BD250 = 8D334 BD900 3-322 BD250A BD250B - BD335 BD301 3-320 BD250B BD250B - BD337 BOX33D 3-334 BD250C BD250C BD338 BDX34D 3-334 BD253 2N6543 3-215 BD342 2N3085 3-6 BD253A 2N6543 3-215 8D343 MJE2965 3-904 BD253B 2N6543 3-215 BD344 BD138 3-260 BD253C BU326A 3-363 BD345 BD137 3-258 BD262 BD678 3-300 BD346 BD798 3-314 BO262A BD680 3-300 BD347 8D797 3-312 BD262B BD682 3-300 8D348 BD140 3-260 BD263 BD677 3-298 BD349 BD139 3-258 BD263A BD679 3-298 BD361 MJE200 3-866 BD263B BF6g1 = BD361A MJE200 3-866 BD266 BD898 3-322 80362 MJE210 3-866 BD266A BD300 3-322 BD362A MJE210 3-866 BD266B BD902 3-322 BD375 BD785 3-304 BD267 80897 3-320 80376 BO786 3-304 BD267A BD899 3-320 BD377 BD787 3-304 BD267B BD901 3-320 BD378 BD788 3-304 BD268 BOW45 3-328 80378 BD789 3-308 BD268A BDW46 3-328 BD380 BD790 3-308 BD269 BDW40 3-328 BD385 MJE181 3-862 BD269A BOW41 3-328 BD385-1 MJE181 3-862 80271 2N6121 3-154 BD385-2 MJE181 3-862 BD272 2N6124 3-154 BD385-5 MJE181 3-862 BD273 2N6122 3-154 8D385-8 MJE181 3-862 BD274 2N6125 3-184 BD386 MJE171 3-862 BD275 2N6123 3-184 BD386-1 MJE171 3-862 BD276 2N6125, 3-154 BD386-2 MJE171 3-862 80278 MJE3055T 3-904 8D386-5 MJE171 3-862 BD278A MJE3055T 3-904 BD386-8 MJE171 3-862 BD279 2N6034 3-135 BD387 MJE182 3-862 BD280 2N6034 3-135 BD387-1 MJE182 3-862 8D291 BD243 3-286 BD387-2 MJE182 3-862 BD292 8D244 3-286 BD387-5 MJE182 3-862 BD293 BD243A 3-286 BD387-8 MJE182 3-862 BD294 BD244A 3-286 8D388 MJE172 3-862 BD295 BD2438 3-286 BD388-1 MJE172 3-862 BD296 8D244B 3-286 BD388-2 MJE172 3-862 8D301 BD795 3-312 BD388-5 MJE172 3-862 BD362 80796 3-314 BD388-8 MJE172 3-862 BD303 BD7397 3-312 BD389 MJE243 3-870 BO304 BD798 3-314 BD389-1 MJE243 3-870 BD306A BD785 3-304 BD389-2 MJE243 3-870 8D306B BD785 3-304 8D389-5 MJE243 3-870 BD307A BD787 3-304 BD389-8 MJE243 3-870 BD307B BD78?7 3-304 BD390 MJE253 3-870 BD311 2N3715 3-26 BD390-1 MJE253 3-870 *Consult Motorola if a direct replacement is necessary. 1-21TABLE 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)MOTOROLA m= SEMICONDUCTOR xy TECHNICAL DATA BD243 BD243A BD243B BD243C BD244 BD244A BD244B BD244C COMPLEMENTARY SILICON PLASTIC POWER TRANSISTORS applications. @ Cottector-Emitter Saturation Voltage - VCE (sat) = 1.6 Vde (Max) @ lo = 6.0 Adc Collector Emitter Sustaining Voltage VcEO(sus) ~~ 45 Vde (Min) 80243, BD244 = 60 Vdc (Min) - BD243A, BD244A = 80 Vde (Min) BD243B, BD244B == 100 Vdc (Min) ~ BD243C, BD244C @ High Current Gain Bandwidth Product fy - 3.0 MHz (Min) @ Ic * 500 mAdc @ Compact TO-220 AB Package . designed for use in general purpose amplifier and switching 6 AMPERE POWER TRANSISTORS COMPLEMENTARY SILICON 45-60-80-100 VOLTS 65 WATTS *MAXIMUM RATINGS ae jo mae FIGURE 1 POWER DERATING Pp. POWER DISSIPATION (WATTS) 0 20 40 60 80 190. ~1202~=~*dASCC GO Tc, CASE TEMPERATURE (?C) BD243 BD243A | BO243B | BD243C Rating Symbol} BD244 BD244A | BD244B ) BD244T Unit Coltlector- Emitter Voltage VcEO 45 60 80 100 Vde Collector-Base Voltage Vop 45 60 80 100 Vac Emitter Base Voltage VEB __. 50 Vide Collector Current. Continuous lo ___ 6 Ade Peak ___. 1Q ___ Base Current 'g ____- 2.0 _--_ Adc Total Device Dissipation Po Watts @Tc 25C ---. 65 Derate above 25C ___- 052 W/C Operating and Storage Junction} Ty.Tstg} ~-- 6S to 8150 ec Temperature Range THERMAL CHARACTERISTICS Charactertstic Symbol Max Unit Thermal Resistance, Junction to Case Resc 192 2Ccw ~ Yq it ut 4 se 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 221A-04 TO-220AB 3-286uu EFFECTIVE TRANSIENT THERMAL RESISTANCE (NORMALIZED) ic. COLLECTOR CURRENT (Amp) 1 TIME tus BD243, 243A, 243B, 243C, BD244, 244A, 244B, 244C FIGURE 4 THERMAL RESPONSE 10 0? 05 ! Ra scimax) = 192C 03 Pik) 02 O CURVES APPLY FOR POWER { PULSE TRAIN SHOWN at ; singre READ TIME AT ty PULSE 907 Tyipk) - Te > Pipky Rosclt? gos iF) DUTY CYCLE, D = 14/12 G03 0 01++Single 002 oo) ] ool 002 003 005 01 02 03 05 1.0 20 30 5.0 10 20.30 50 100 200 300 =6$00= 100 t, TIME OR PULSE WIDTH (ms) FIGURE 5 ACTIVE-REGION SAFE OPERATING AREA 10 ae ew == = 50p-++ ~ ~ tt 4 = There are two limitations on the power handling ability of a 30 ' TTI = transistor average yunction temperature and second breakdown | = se Vise tts 2704 5006 Sate operating area curves indicate fo Vig lmus of the transistor i 4 44 that must be observed for rehable operation, +e, fhe transistor SECOND BREAKDOWN: To must not be subsected to greater dissipation than the curves imdicate VO, BONDING WIRE LTO The data of Figure 5 1s based on T jin) 160C: Te 1s variable 7 THERMAL LIMITATION Te = = 2596 __ + AK depending on conditions Second breakdown pulse limits are valid ooh t+ 4 fe } for duty cycles to 10 provided Tyipk) SS VS0C Tyipky) May be CURVES APPLY BELOW RATED Vceeo 7 oT calculated from the data in Figure 4 At high case temperatures, 03 +t 4 + 0243, B02 at | thermal limitations will reduce the power that can he handled to 02-4 BO243A, BD244A values tess than the hmitatons imposed by second breakdown 802438, BD2448 ] al (See AN-415A). aL | BD23C, BD244C r r ; 5.0 10 20 40 60 80 100 Vee. COLLECTOR EMITTER VOLTAGE (VOLTS) FIGURE 6 TURN-OFF TIME FIGURE 7? CAPACITANCE 5U 30 20 lu S we vu? S 5 = 5 03 o v2 3 01 og? 006 2 0.06 01 0? 04 O06 10 20 40 60 os 1a 20 30 50 re 200-30 50 Ic, COLLECTOR CURRENT 1AMP} Va. REVERSE VOLTAGE (VOLTS) 3-288