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 Fleplacement Number 41506 2N6543 3-215 BD179-16 BD179-16 3-268 43104 2N5631 3-105 BD179-6 BD179-6 3-268 8D127 BD157 3-262 BD180 BD180 3-270 8D128 BD158 3-262 BD180-10 BD180-10 3-270 BD123 BD159 3-262 BD180-16 BD 180-10 3-270 BD130 2N3055 3-6 BD180-6 BD180-6 3-270 80131 BD786 3-304 BD185 BD135 3-272 BD132 BD786 3-304 BD186 BD7/8 3-302 BD133 BD787 3-304 BD187 BD787 3-304 BD135 BD135 3-258 BD188 BD788 3-304 BD135-10 BD135-10 3-258 BD189 80189 3-272 BD135-16 8D135-16 3-268 BD190 BD788 3-304 BD135-6 BD135-6 3-258 BD195 MJE3055 3-904 8D136 8D136 3-260 BD196 MJE2955 3-904 BD 136-10 BD136-10 3-260 BD197 MJE3055 3-904 BD136-16 BD136-16 3-260 BD198 MJE2955 3-904 BD136-6 BD136-6 3-260 BD199 MJE3055 3-904 80137 BO137 3-258 BD200 MJE2955 3-904 BD137-10 BD137-10 3-258 BD201 BD795 3-312 BD 137-16 BD137-16 3-258 BD202 BD796 3-314 BD137-6 BD137-6 3-258 BD203 BD79? 3-312 BD138 BD138 3-260 D204 BD798 3314 BD138-10 BD138-10 3-260 BD206 MJE2955T 3-904 BD138-16 BD138-16 3-260 BD207 MJE3055T 3-904 BD138-6 BD138-6 3-260 BD208 MJE2955T 3-904 BD139 BD139 3-258 BD220 2N6123, 3-154 BD139-10 BD139-10 3-258 80221 2N6121 3-154 BD 139-16 BD139-16 3-268 BD222 2N6122 3-154 BD139-6 BD139-6 3-258 BD223 2N6125 3-154 BDt40 BD140 3-260 BD224 2N6124 3-154 BD140-10 BD140-10 3-260 BD225 2N6125 3-154 BD140-16 BD140-16 3-260 BD226 BD135 3-258 BO140-6 BD140-6 3-260 8D227 BD136 3-260 BD157 BD157 3-262 BD228 8D137 3-258 BD158 BD158 3-262 BD229 BD138 3-260 BD159 BD159 3-262 BD230 BD139 3-258 BD165 BD165 3-264 8D231 BO140 3-260 BO166 BD166 3-266 BD233 BD236 3-278 BD167 BD167 3-264 BD234 BD234 3-276 BD168 BD138 3-280 BD235 BD235 3-278 BD169 BD169 3-264 BD236 BD236 3-276 BD170 BD140 3-260 BD237 BD237 3-278 BD175 BD179 3-268 BD238 BD236 3-276 BO175-10 B0179-10 3-268 8D239 BD239 3-280 BD175-16 8D179-16 3-268 BD239A BD239A 3-280 BD175-6 BD179-6 3-268 BD239B 8D239B 3-280 80176 8D176 3-270 BD239C BD239C 3-280 BD176-10 BD176-10 3-270 BO240 BD240 3-280 BD176-16 BD176-16 3-270 BD240A BD240A 3-280 BD176-6 BD176-6 3-270 BD240B BD240B 3-280 BD177 8D179 3-268 BD240C BD240C 3-280 8D177-10 BD179-10 3-268 BD241 BD241 3-282 BD177-16 BD179-16 3-268 BD241A BD241A 3-282 8D177-6 8D179-6 3-268 BD241B BD241B 3-282 BD178 BDt80 3-210 BD241C BO241C 3-282 BD178-10 BD180-10 3-270 BD242 BD242 3-282 8D178-16 BD180-16 _ BD242A BD242A 3-282 BD178-6 BD180-6 3-270 BD242B BD242B 3-282 BD179 BD179 3-268 BO242C 80242 3-282 BD179-10 BD179-10 3-268 BD243 BD243 3-286 *Consult Motorola if a direct replacement is necessary. 1-20 TABLE 7 PLASTIC TO-225 Type (Formerly TO-126 Type) STYLE 1: STYLE 3: PIN 1. EMITTER PIN 1. BASE 2. COLLECTOR 2. COLLECTOR 3. BASE 3. EMITTER CASE 77-06 Resistive Switching IcCont | VcEOisus) . ts te fr Pp (Case) Amps Volts Device Type hee @lc | as Bs | @ic | MHz | Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 0.3 250 MJE3440 40/160 0.02 15 15 350 MJE3439 40/160 0.02 16 15 05 150 MJE341 25/200 0.05 15 20.8 200 MJE344 30/300 0.05 15 20.8 250 2N5655 30/250 0.1 3.5 typ | 0.24 typ 0.1 10 20 BD157 30/240 0.05 20 300 BD158 30/240 0.05 20 BD232 20 min 0.15 20 MJE340 MJE350 30/240 0.05 20.8 2N5656 30/250 0.1 3.5 typ | 0.24 typ 0.1 10 20 350 2N5657 30/250 0.1 3.5 typ | 0.24 typ 0.1 10 20 BD159 30/240 0.05 20 1 40 2N4921 2N45918 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 30 60 2N4922 2N4919 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 30 80 2N4923 2N4920 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 30 15 45 BD165 BD166 18 min 0.5 6 20 BD135 BD136 40/250 0.15 12.8 BD135.6 BD 136.6 40/100 0.15 12.6 BD135.10 BD 136.10 63/160 0.15 12.5 BD135.16 BD136.16 100/250 0.15 12.5 60 BD167 15 min 0.5 6 20 BD137 BD138 40/250 0.15 12.5 BD137.6 BD138.6 40/100 0.15 12.5 BD137.10 BD138.10 63/160 0.15 12.5 BD137.16 BD138.16 100/250 0.15 12.5 80 BD169 15 min 0.5 20 BD139 BD140 40/250 0.15 12.5 BD139.6 BD140.6 40/100 0.15 12.5 BD139.10 BD 140.10 63/160 0.15 12.5 BD139.16 BD 140.16 100/250 0.15 12.5 300 MJE13002 5/25 1 0.7 1 5 40 400 MJE13003 5/25 1 0.7 1 5 40 2 45 BD234 25 min 1 3 25 60 BD235 BD236 25 min 1 3 25 80 BD237 25 min 1 3 25 100 MJE270## MJE2714#4# 1.5k min 0.12 6 15 3 30 MJE520 MJE370 25 min 1 25 40 MJE180 MJE170 50/250 0.1 0.6 typ | 0.12 typ 0.1 50 12.5 Case 77 (Style 3), # |hfg| @ 1 MHz, ## Darlington (continued) MOTO = SEMICONDUCTOR Po TECHNICAL DATA BD157 BD158 BD159 PLASTIC MEDIUM POWER NPN SILICON TRANSISTOR . designed for power output stages for television, radio, phonograph and other consumer product applications. Suitable for Transformeriess, Line-Operated Equipment @ Thermopadt Construction Provides High Power Dissipation Rating 0.5 AMPERE POWER TRANSISTOR NPN SILICON 250-300-350 VOLTS 20 WATTS for High Reliability "MAXIMUM RATINGS Rating Symbol [BD 157|8D 158 [BD 159] Unit | Collector-Emitter Voltage Vceo | 250 300 | 350 | Vac Coltector-Base Voltage Vee 278 325 | 375 Vde Emitter-Base Voltage VEB ~m 50 -- Vde | Collector Current -- Continuous Io _- 0.5 Adc Peak 1.0 ~ Base Current tg ~ 0.25 _e Adc Total Device Dissipation @ Tc = 25C Pp 20 Watts Derate above 25C 0.16 w/ec Operating and Storage Junction Ty.Tstg = -65 to +150 % |__Temperature Range _| THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermat Resistance, Junction to Case OIC 6.25 ciw ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic | Symbol | Type | Min | Max | Unit | OFF CHARACTERISTICS Collector-Emitter Sustaining Voltage BV cco BO 122 z50 - Vde (Ig = 1.0 mAde, Ig = Q) BD 159] 350 ColtWiector Cutoff Current icBO = 100 wAdc (At rated voltage) Emitter Cutoff Current teBo - 100 Adc (Veg = 5.0 Vde, Ic = 0} ON CHARACTERISTICS DC Current Gain hee 30 240 ~ (I = 50 mAdc, VcE = 10 Vde) \ of lhe G ~eike-s [e]o25 i010 0 [als @| alo Fexeow [A186] NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: :NCH. STYLE 1 PIN 1. EMITTER 2. COLLECTOR 3. BASE 0.148 | 0.188 0.045 | 0.055 0.025 | 0.035 0.145 | 0.185 CASE 77-06 TO-225AA TYPE 3-262 Pp. POWER DISSIPATION (WATTS) Ice, COLLECTOR CURRENT (AMPS) hee, DC CURRENT GAIN BD157, BD158, BD159 FIGURE 2 ON VOLTAGES FIGURE 1 ~ POWER TEMPERATURE DERATING CURVE 26 Vee @ Ic/ig = 10 20 a 5 VBE @ VceE = WV Qo = 5 w oO & e 5 o *. Ic/ig = 10 0 > Ty = +250C Ic/lg = 5.0 5.0 a 20 40 60 80 100 420 140 160 10 20 30 50 100 200 300 500 Tc. CASE TEMPERATURE (C) Ic, COLLECTOR CURRENT {mA} FIGURE 3 DC SAFE OPERATING AREA iWeoy To " = * i Ei EE H 0.5 | ~ NY 03 Ty = 150 | - ft | t 02+ - de 4. _4 - - N The Safe Operating Area Curves indicate Ic -Vce_e timits below which the device will not enter secondary breakdown. Collector ot ee ee ope tT: = load lines for specific circuits must fall within the applicable Safe 0.07 ONDING WIRE LIMITEDT ae + ry Area to avoid causing a catastrophic failure. To insure operation ~THERMALLY LIMITED @ T = 25 C 0.05 - _ below the maximum Ty, power-temperature derating must be ob- : SECOND RACAKOORIN LIMITED N served for both steady state and pulse power conditions. 0.03 | ED+~ 0.02 | | - a 1 | | h 10 20 30 50 300 Vee, COLLECTOR EMITTER VOLTAGE (VOLTS) FIGURE 4 CURRENT GAIN ~ Voce =v Ty = 150C Voe=2.0V +100C 500 2.0 3.0 20 30 70 100 200 300 tg. COLLECTOR CURRENT (mAdc) 5.6 50 3-263