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 2N6050 2N6050 3-143 2N6188 2N6193 3-158 2N6051 2N6051 3-143 2N6189 2N6183 3-158 2N6051JAN 2N6057 JAN 3-143 2N6190 2N6190 3-158 2N6051JTX 2N6051JTX 3-143 2N6191 2N6191 3-158 2N6051 STXV 2N6051UTXV 3-143 2N6192 2N6193 3-158 2N6052 2N6052 3-143 2N6193 2N6193 3-158 2N6052JAN 2N6052JAN 3-143 2N6193JAN 2N6193JAN 3-158 2N6052JTX 2N6052JTX 3-143 2N6193JTX 2N6193JTX 3-158 2N6052JTXV 2N6052JTXV 3-143 2N6193JTXV 2N6193JTXV 3-158 2N6053 2N6053 3-147 2N6211 2N6211 3-161 2N6054 2N6054 3-147 2N6212 2N6212 3-161 2N6055 2N6055 3-147 2N6213 2N6213 3-161 2N6056 2N6056 3-147 2N6226 MJ15016 3-9 2N6057 2N6057 3-143 2N6227 MJ150176 3-9 2N6058 2N6058 3-143 2N6228 MJ15016 39 2N6058JAN 2N6058JAN 3-143 2N6229 2N5880 3-123 2N6058JTX 2NG6058JTX 3-143 2N6230 MJ15002 3-710 2NG058JTXV 2NGO58JTXV 3-143 2N6231 MJ15002 3-710 2N6059 2N6059 3-143 2N6233 2N3584 3-20 2N6059JAN 2N6059JAN 3-143 2N6234 2N3585 3-20 2N6059JTX 2N6059/TX 3-143 2N6235 2N3585 3-20 2N6059JTXV 2N6059JTXV 3-143 2N6242 MJ13015 3-670 2N6077 2N3585 3-20 2N6243 MJ13335 3-700 2N6078 2N3585 3-20 2N6244 MJ13333 3-700 2N6079 2N3585 3-20 2N6245 MJ13335 3-700 2N6098 2N6487 3-207 2N6246 2N5879 3123 2N6099 2N6487 3-207 2N6247 2N5880 3-123 2N6100 2N6487 3-207 2N6248 MJ15076 39 2N6101 2N6488 3-207 2N6249 2N6249 3-164 2N6102 2N6488 3-207 2N6250 2N6250 3-164 2N6103 2N6486 3-207 2N6251 2N6251 3-164 2N6106 2N6107 3-151 2N6253 2N5877 3-120 2N6107 2N6107 3-151 2N6254 2N5878 3-120 2N6108 2N6109 3-151 2N6257 2N5886 3-127 2N6109 2N6109 3-151 2N6258 2N5686 3-112 2N6110 2N6111 3-151 2N6259 2N5631 3-105 2N6111 2N6111 3-151 2N6260 2N3054A 3-2 2N6127 2N6121 3-154 2N6261 2N4233A 3-64 2N6122 2N6122 3-154 2N6262 2N5760 3-116 2N6123 2N6123 3-154 2N6263 2N3684 3-20 2N6124 2N6124 3-164 2N6264 2N3684 3-20 2N6125 2N6125 3-154 2N6270 2N6338 3-188 2N6t26 TIP32C 3-1073 2N6271 2N6338 3-188 2N6127 2N6436 3-203 2N6272 2N6338 3-188 2N6128 2N6338 3-188 2N6273 2N6338 3-188 2N6129 TIP41 3-1083 2N6274 2N6274 3-168 2N6130 TIPA1A 3-1083 2N6274JAN 2N6274JAN 3-168 2N6131 TIP41B 3-1083 2N6274JTX 2N6274JTX 3-168 2N6132 TIP42C 3-1083 2N6274JTXV 2N6274JTXV 3-168 2N6133 TIP42C 3-1083 2N6275 2N6275 3-168 2N6134 TIP42C 3-1083 2N6276 2N6275 3-168 2N6175 MPS-U10 3-1052 2N6277 2N6277 3-168 2N6176 MPS-U10 3-1052 2N6277JAN 2N6277JAN 3-168 2N6t77 MJE340 3-876 2N6277JTX 2N6277JTX 3-168 2N6178 MPS-U06 3-1048 2N6277JTXV 2N6277JTXV 3-168 2N6179 MPS-U05 3-1048 2N6278 2N6274 3-168 2N6180 MPS-U56 3-1062 2N6279 2N6275 3-168 2N618t MPS-U55 3-1062 2N6280 2N6275 3-168 2N6186 2N6190 3-158 2N6281 2N6277 3-168 2N6187 2N6191 3-158 2N6282 2N6282 3-172 *Consult Motorola if a direct replacement is necessary. 1-6TABLE 1 METAL TO-204, TO-204AE (continued) Resistive Switching IcCont | VoEO(sus} . ts tf fr Pp (Case) Amps Volts Device Type hFE @l us as @lg | MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 50 200 BUS51 15 min 50 350 400 MJ10015044 10 min 40 2.5 1 20 250 500 BUT340e## 15 min 32 3 1.5 32 250 MJ100160## 10 min 40 25 1 20 250 56 400 BUT330## 20 min 36 3.3 1.6 36 250 60 60 MJ14000 MJ14001 15/100 50 300 30 MJ14002 MJ14003 15/100 50 300 200 MJ100200## 75 min 15 3.5 0.5 30 250 250 MJ100210## 75 min 15 3.5 0.5 30 250 70 125 BUS50e 15 min 50 350 @ Modified TO-3, 60 mii pins, # |hfg| @ 1 MHz, ## Darlington TABLE 2 METAL TO-205 (Formerly TO-39) STYLE 1: PIN 1. EMITTER 2. BASE 3. COLLECTOR (Pin 3 connected to case) 241 CASE 79-04 (TO-205AD) Resistive Switching icCont | VcEO(sus) . ts tf fr Pp (Case) Amps Volts Device Type hE @l\c us ps @l | Mz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 0.5 300 MJ4646 20 min 0.5 0.72* 0.05 40 5 400 MJ4647 20 min 0.5 0.72* 0.05 30 5 3 40 2N3719 25/180 1 0.4* 1 60 6 2N3867 40/200 1.5 0.4* 1.5 60 6 60 2N3720 25/180 1 0.4* 1 60 6 2N3e68 30/150 1.5 0.4* 1.5 60 6 80 2N6303 30/150 1.6 0.4* 1.5 60 6 60 2N4877 20/100 4 15 0.5 4 4 10 80 2N5336 2N6190 30/120 2 2 0.2 2 30 6 2N5337 2N6191 60/240 2 2 0.2 2 30 6 100 2N5338 30/120 2 2 0.2 2 30 10 . 2N5339 2N6193 60/240 2 2 0.2 2 30 6 *toff [| JAN, JTX, JTXV Available 2-8* MOTOROLA @ SEMICONDUCTOR yyy TECHNICAL DATA 2N6190 2N6191 2N6193 MED!UM-POWER PNP SILICON TRANSISTORS . designed for switching and wide band amplifier applications. @ Low Collector-Emitter Saturation Voltage VCE(sat) = 1-2 Vde (Max) @ Ic = 5.0 Amp @ DC Current Gain Specified to 5 Amperes 5 AMPERE POWER TRANSISTORS PNP SILICON @ Excellent Safe Operating Area a WALTS Packaged in the Compact TO-205AD Case for Critical Space Limited Applications @ Complement to NPN 2N5336 thru 2N5339 MAXIMUM RATINGS 2N6190 Rating Symbol 2N6191 2N6193 Unit Collector-Emitter Voltage VcEO 80 100 Vde _ Collector-Base Voltage Vos 80 100 Vde Emitter-Base Voltage VEB 6.0 Vde Collector Current Continuous Ic 5.0 Adc Base Current Ig 1.0 Adc Total Device Dissipation @ Tc = 25C Pp 10 Watts Derate above 25C 57.1 mw/C Operating and Storage Junction Ty. Tstg -65 to +200 C Temperature Range THERMAL CHARACTERISTICS Ce] R Bf Characteristic Symbol Max Unit i | 4 * A a tT _ 4. oy SEATING Thermal Resistance, Junction to Case 93C 17.5 ciw = {i = of sams Cr] eo A. "Indicates JEDEC Registered Data. STYLE 1 ny FIGURE 1 POWER-TEMPERATURE DERATING nN eae ote pam Pp, POWER DISSIPATION (WATTS) 80 120 Tc, CASE TEMPERATURE (C) Safe Area Curves are indicated by Figure 5. All limits are applicable and must be observed. 160 200 3. COLLECTOR [+] 6.036 0.014): CASE 79-04 TO-205AD (TO-39) @|T [a @] H@: 3-1582N6190, 2N6191, 2N6193 * ELECTRICAL CHARACTERISTICS (T = 25C unless otherwise noted) Characteristic Symbat Min ] Max Unit | OFF CHARACTERISTICS Cotlector-Emitter Sustaining Vottage (11 VCE Olsus) Vde Ug = 50 mAdc, tg = 0) 2N6190, 2N6191 80 - 2N6193 100 - Collector Cutoff Current {ceo wade {VE = 75 Vde, Ig = O} 2N6190, 2N6191 - 100 ! (VCE = 90 Vde, Ig = 0} 2N6193 - 100 Collector Cutoff Current SEX | uAdc (VcE = 75 Vde, Vee (oft) = 1.5 Vdel 2N6190, 2N6191 - 10 (VcE = 90 Vode, VgE (off) = 1.5 Vdel 2N6193 - 10 {Vee = 76 Vdc, Vag (off) = 1.5 Vdc, 2N6190, 2N6191 - 10 mAdc Te = 150C) (VcE = 90 Vde, Vag (off) = 1.5 Vdc, 2N6193 ~ 1.0 Tc = 150C) Collector Cutoff Current lopo. Adc (Vcp = 80 Vdc, Ie = 0) 2N6190, 2N6191 - 10 (Vcp = 100 Vac, Ie = 0) 2N6193 - 10 Emitter Cutoff Current lego wAde (Vge = 6.0 Vdc, Ic = 0) - 100 ON CHARACTERISTICS (1) DC Current Gain hee a ilg = 500 mAdc, Vcg = 2.0 Vdeb 2N6190 30 - 2N6191, 2N6193 60 - (Ig = 2.0 Adc, Vg = 2.0 Vde) 2N6190 30 120 2N6191, 2N6193 60 240 (Ig = 5.0 Adc, Veg = 2.0 Vde) 2N6190 20 - 2N6191, 2N6193 40 ~ Collectar-Emitter Saturatian Voltage VCE lsat) Vdc lc = 2.0 Adc, Ip = 07 (Ig = 5.0 Adc, Ig = - 12 Base-E mitter Saturation Voltage Vee tsar) Vide (ig = 2.0 Adc, Ip = 0.2 Adc} - 1.2 (Ig = 5.0 Ade, Ig = 0.5 Adc) - 18 DYNAMIC CHARACTERISTICS Current-Gain-Bandwidth Product (2) ft MHz (Ig = 0.5 Adc. Vog = 10 Vde, frest = 10 MHz! 30 - Output Capacitance Cop pF (Vog = 10 Vee, Ie = 0, f = 100 kHz) ~ 300 } _ tnput Capacitance Cib pF (Vge = 2.0 Vdc, Ig = 0, f = 100 kHz) ~ 1250 SWITCHING CHARACTERISTICS Delay Time Vee = 40 Vde, VBE (off) = 3-0 Vdc, td - 100 as Rise Time Ic = 2.0 Adc, igy = 0.2 Adch tr = 100 ns Storage Time (Voc = 40 Vde, Ic = 2.0 Adc, ts - 2.0 BS Fall Time 'B1 = Ie = 0.2 Adc) f = 200 ns Indicates JEDEC Registered Oata (1) Pulse Test: Puise Width < 300 us, Duty Cycle < 2.0% (2) fp =I Meg l + ftast FIGURE 2 SWITCHING TIME TEST CIRCUIT 16V Vee -40.V f =37V 62 20 10 us INPUT: -+| PULSE uf a tp tes 10 ns D.C. = 1.0% 51 1ng14 +23V ~ i a S t TIME (ast 3-159 FIGURE 3 TURN ON TIME ty @ Vee = tr@Vec=20V 03 1 tc, COLLECTOR CURRENT (AMP) Icflg = 10 Ty = 25Crit), NORMALIZED EFFECTIVE TRANSIENT Ie, COLLECTOR CURRENT (AMP} 2N6190, 2N6191, 2N6193 FIGURE 4 THERMAL RESPONSE 1.0 0.5 0.3 0.2 Ql 0.07 0.05 THERMAL RESISTANCE 0.03 LE PULSE 0.02 0.01 0.01 0.02 0.03 0.05 O.1 02 0.3 O56 1.9 20 Ayclt) = r(t} Oy Osc = 17.5 CAV Max SINGLE O CURVES FOR POWER PULSE TRAIN SHOWN READ TIME ATt PULSE mm the wo tgaey BuTY CYCLE, D = 14/12 Ta(pk) TC = Peak) BJcit? 30 6.0 10 20-30 50 100 200 300 = 6500 1000 t, TIME OR PULSE WIDTH (ms) FIGURE 5 ACTIVE-REGION SAFE OPERATING AREA o os cs 20 1 ms a5 Ty = 200C SECOND BREAKDOWN LIMITED ~ BONDING WIRE LIMITED O.2FL THERMALLY LIMITED @T = 25C 01 PULSE DUTY CYCLE<10% 0.05 Y RATED VCEO 2N6190,2N6191 9.02 2N6193 0.01 1 6.0 Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) There are two limitations on the power handling ability of a transistor: average junction temperature and second breakdown. Safe operating area curves indicate Ic VE limits of the tran- sistor that must be observed for reliable operation; i.e., the transistor must not be subjected to greater clissipation than the curves indicate. The data of Figure 5 is based on T yipk} = 200C; To is variable depending on conditions. Second breakdown pulse limits are valid for duty cycles to 10% provided Ty(yk) < 200C. TJ(pk) May be calculated from the data in Figure 4. At high case temperatures, thermal limitations will recluce the power that can be handled to values less than the limitaitons imposed by second breakdown. t, TIME (ns) FIGURE 6 TURN-OFF TIME 'B1 = IB2 ie ip = 10 Ty = 26C 1.0 tc, COLLECTOR CURRENT (AMP) FIGURE 7 CAPACITANCE versus VOLTAGE 2000 _ 1000 z = w 700 z < Ee a < 2 oS 300 o 200 100 1 Vp, REVERSE VOLTAGE (VOLTS) 3-160