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 3 METAL TO-213 (Formerly TO-66) t= % PIN 1. BASE 1 2. EMITTER CASE. COLLECTOR CASE 80-02 (TO-213AA) Resistive Switching IcCont | VcEO{(sus) . . ts te fr Pp (Case) Amps Volts Device Type hre @ Ic BS BS @Ic MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 1 80 2N4912 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 25 175 2N3583 2N6420 40/200 0.5 2typ | 0.23 typ 0.5 10 35 225 2N3738 40/200 0.1 3 typ 0.3 typ 0.1 10 20 300 2N3739 40/200 0.1 3 typ 0.3 typ 0.1 10 20 2 225 2N6211 10/100 1 2.5 0.6 4 20 35 250 2N3584 2N6421 25/100 1 4 3 1 10 35 300 2N6212 10/100 1 2.5 0.6 1 20 35 2N3585 2N6422 25/100 1 4 3 1 10 35 2N4240 30/150 0.76 6 3 0.75 18 35 350 2N6213 10/100 1 2.5 0.6 1 20 35 3 140 2N3441 25/100 0.5 0.2 25 4 60 2N37'40.- 30/100 0.25 1.3 typ |0.27 typ| 0.25 4 25 2N3054,A 25/100 0.5 1 typ 0.3 typ 0.5 3 75 2N3766. 40/160 0.5 0.9 typ | 0.09 typ 0.5 10 20 2N62944# 2N62964##4 750/18k 2 0.9 typ | 0.7 typ 2 4 50 80 2N37'41 30/100 0.25 1.3 typ |0.27 typ} 0.25 4 25 2N3767 40/160 0.5 0.9 typ | 0.09 typ 0.5 10 20 2N6295## 2N6297## 750/18k 2 0.9 typ | 0.7 typ 2 4 50 5 80 2N4233A 25/100 1.5 0.5 typ | 0.2 typ 1.5 4 75 7 60 2N6317 20/100 2.5 1 0.8 2.5 4 90 80 2N5428 60/240 2 2 0.2 2 30 40 2N6318 20/100 2.5 i 0.8 2.5 4 90 100 2N5429 30/120 2 2 0.2 2 30 40 2N5430 60/240 2 2 0.2 2 30 40 8 60 2N630044 aNeiosny 750/18k 4 1.5 typ | 1.5 typ 4 4# 75 80 2N6201## 2NGZO94# 750/18k 4 1.5 typ | 1.5 typ 4 4# 75 # |hfel @ 1 MHz, ## Darlington [] JAN, JTX, JTXV Available 2-9TABLE 14 SWITCHMODE POWER TRANSISTORS (continued) Resistive Switching VcEO{sus)| IcCont| Vcev Device Type ts tt fr | Pp (Case) Volts Amps Volts NPN unless here @ Ic BS BS @lI | MHz Watts Case Min Max Min otherwise noted | Min/Max | Amp Max Max Amp Min @ 25C JEDEC/MOT 300 0.5 300 MJ4646-PNP 20 min 0.5 0.72* 0.05 40 TO-205AD/79 278 15 300 2N6250 8/50 10 3.5 1 10 2.5 TO-204/1 250 60 350 MJ10021#4% 25 min 30 3.5 0.5 30 TO-204/197 40 300 BUV22 10 min 20 11 0.35 20 8 250 TO-204/1 350 BUS52 15 min 40 350 TO-204/1 20 300 BUV12 10 min 10 1.5 0.6 10 8 150 TO-204/1 450 MJ1333 1% 8/40 10 3.5 0.7 10 5/40 TO-204/1 15 250 MJ110214-PNP | 100 min 15 34 TO-204/1 250 MJ11022# 100 min 15 3# TO-204/1 8 500 2N6306 15/75 3 1.6 0.4 3 5 TO-204/1 400 MJ6502-PNPx& 15 min 2 2 0.5 4 TO-204/1 5 500 MJ3029 30 min 0.4 1 3 TO-204/1 350 2N6497 10/75 2.5 1.8 0.8 2.5 5 TO-220/221A 2 375 2N3584 25/100 1 4 3 1 10 TO-213AA/80 375 2N6421-PNP 25/100 1 4 3 1 10 TO-213AA/80 1 250 2N5344-PNP 25/100 0.5 0.6 0.1 0.5 60 TO-213AA/80 225 2 275 2N6211 10/100 1 2.5 0.6 1 20 TO-213AA/80 200 60 300 MJ10020##*% 25 min 30 3.5 0s 30 TO-204/197 50 300 BUS51 15 min 50 350 TO-204/1 40 250 BUY21 10 min 25 1.8 0.4 25 8 150 TO-204/1 20 250 BUV11 10 min 12 1.8 0.4 12 8 150 TO-204/1 400 MJ13330*% 8/40 10 3.5 0.7 10 5/40 TO-204/1 15 225 2N6249 10/50 10 3.5 1 10 2.5 TO-204/1 250 BUX41 8 min 8 1.5 0.4 8 8 120 TO-204/1 200 MJ11019#-PNP ; 100 min 15 3# TO-204/1 200 MJ11020# 100 min 15 34 TO-204/1 3 250 BUY49P 30 min 0.5 25 20 TO-225AA/77 * Designers Data Sheet characterization # Darlington ## Darlington with speed-up diode * tore ** ihfel @ 1 MHz 2-30MOTOROLA m= SEMICONDUCTOR yyy TECHNICAL DATA 2N6211 2N6212 2N6213 MEDIUM-POWER HIGH-VOLTAGE PNP POWER TRANSISTORS ers, inverters, defiection stages and high fidelity amplifiers. Collector-Emitter Sustaining Voltage VCEO(sus) = 225 to 350 Vde @ Ic = 200 mAdc @ Second Breakdown Collector Current \5/b = 875 mAdc @ VcE = 40 Vde @ tf = 0.6 us Resistive Fall Time @ Usable DC Current Gain to 2.0 Adc . designed for high-speed switching and linear amptifier applications for high-voltage operational amplifiers, switching regulators, convert- 2 AMPERE POWER TRANSISTORS PNP SILICON 225-350 VOLTS 35 WATTS *MAXIMUM RATINGS SEATING PLANE Rating Symbol | 2N6211 | 2N6212 | 2N6213 | Unit STYLE 1: Collector-Emitter Voltage VcEO 225 300 350 Vde PIN 1. BASE F Collector-Base Voltage Vos 275 350 400 Vde 2. EMITTER ~~ Emitter-Base Voltage Ves 6 Vde CASE: COLLECTOR Collector Current Continuous tc | Ad 7 Peak ______ 5 L _ Base Current Ip 1 Ade H rt Total Power Dissipation @ Tg = 25C Pp 35 Watts G Derate above 25C 0.2 w/c Operating and Storage Junction Ty, Tstg -65 to +200 % Temperature Range THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case 95C 5.0 c/w "indicates JEDEC Registered Data. FIGURE 1 FORWARD BIAS SAFE OPERATING AREA 10 5.0 2.0 10 05 0.2 01 0.05 = Bonding Wire Limit Thermal Limit (Single Pulse) Second Breakdown Limit 2N6211 ic, COLLECTOR CURRENT (AMPS) 9.02 0.01 2N6213 20 50 100 200 Vee. COLLECTOR-EMITTER VOLTAGE (VOLTS) 900 1000 All JEDEC Dimensions and and Notes Apply. CASE 80-02 TO-213AA (TO-66) There are two limitations on the powerhandling ability of a transistor: average junction temperature and second breakdown. Safe operating area curves indicate Ic~-V cE limits of the transistor that must be observed for reliable operation; i.8., the transistor must not be subjected to greater dissipation than the curves indicate. The data of Figure 1 is based on Ty(pK) = 200; Tc is variable depending an conditions. At high case temperatures, thermal limitations will reduce the power that can be handied to values fess than the limitations imposed by second breakdown, (See Figure 8). 3-1612N6211, 2N6212, 2N6213 ELECTRICAL CHARACTERISTICS (T = 25C unless otherwise noted) Characteristic | Symbol | Min I Max | Unit ] OFF CHARACTERISTICS *Collector-Emitter Sustaining Voltage (1) VCEO(sus) Vde (Ice = 200 mAdc, Ig = 0) 2N6211 225 - 2N6212 300 - 2N6213 350 = Collector-Emitter Sustaining Voltage VCEX (sus) Vdc (Ig = 200 mA, Vee = -1.5 V, L=10 mH) 2N6211 275 - 2N6212 350 2N6213 400 ~ *Coliector-Emitter Sustaining Voltage (1) VCER (sus) Vde {ig = 200 mA, Ig = 0, Reg = 50 2) 2N6211 250 _ 2N6212 325 - 2N6213 375 _ *Emitter-Base Breakdown Voltage (1) VEBO Vde (lg = 0.5 mAdc, Ic = 0) 2N6212/13 6.0 > (Ig = 1.0 mAdc, Ic = 0) 2N6211 6.0 Collector Cutoff Current IcEV mAdc (VE = 250 Vdc, VgEfofs) = 1.5 Vde, Te = 25C} - 0s (Tg = 100C) - 5.0 (VcE = 315 Vde, VgeE(oft) = 1.5 Vide, Te = 25C) - 05 (Te = 100C) - 5.0 (VcE = 360 Vdc, VgE(off) = 1.5 Vde, Te = 25C) > 05 (Te = 100C) - 5.0 Collector Cutoff Current All Types IcEO _ 5.0 mAdc (VE = 150 Vdc, ig = 0} *Emitter Cutoff Current lEBO mAdc (Veg = 6.0 Vde, Ic = 0) 2N6211 - 1.0 2N6212 _ 0.5 2N6213 - 05 *ON CHARACTERISTICS (1} DC Current Gain hre - (ic = 1.0 Adc, Vog = 2.8 Vde} 2N6211 10 100 (ig = 1.0 Ade, Veg = 3.2 Vde} 2N6212 10 100 (Ig = 1.0 Adc, VcE = 4.0 Vde) 2N6213 10 100 Collector-Emitter Saturation Voltage VCE(sat} Vde {Ig = 1.0 Ade, Ig = 125 mAdc) 2N6211 - : 2N6212 - 1.6 2N6213 - 2.0 Base-Emitter Saturation Voltage All Types VBE(sat} = 1.4 Vde (Ig = 1.0 Ade, Ip = 125 mAdc) DYNAMIC CHARACTERISTICS *Current Gain Bandwidth Product (2} fr 20 - MHz {Ig = 200 mAdc, VcE = 10 Vde, frest = 5.0 MHz) Output Capacitance (Vcp = 10 Vdc, Ip = 0, f = 1.0 MHz) Cob ~ 220 pF *SECOND BREAKDOWN "Second Breakdown Collector Current with Base Forward Biased | Is/b | 0.875 | ~ | Adc | t= 1.0 s (non-repetitive) (VcE = 40 Vdc) *SWITCHING CHARACTERISTICS Rise Time (Vee = 200 Vde, Ig = 1.0 Ade, tr = 06 Storage Time ~ _ ts 25 MS Fall Time 'B1 = Ip2 = 0.126 Ade) tf = 08 HS *Indicates JEDEC Registered Data. (1) Pulse Test: Pulse Width < 300 us, Duty Cycle < 2.0% FIGURE 2 SWITCHING TIME TEST CIRCUIT Output to Oscilloscope Vv 6V 200 V (Tektronix Modal No. 543A, Be=t Vec=- Input: Hewlett-Packard at + lA yFe* or equivalent} Model No. 214A, we TN . Rra* or equivalent = 100 uF B2502 = 100 uF \2__-~< ~\+ 1 = F > ( ) 10, uF 272 ~@Ip14 = 50 2 32 input from Putse Generator 7 * Adjust Rg for Iga and Rg for Ic {Pulse Duration = 20 us. al and 1 measured with Tektronix Current Rep. Rate = 200 Hz) 81 B2 Probe P6019 and Type 134 Amplifier, or equivalent 3-162he, OC CURRENT GAIN Ic, COLLECTOR CURRENT (nA) Ig, BASE CURRENT (nA) 104 oS oo Ss ~ 3 + S in 2N6211, 2N6212, 2N6213 FIGURE 3 DC CURRENT GAIN j= = Voce =2.0V Voce = 10 30 50 70 100 200 300 700 1.0k Ic, COLLECTOR CURRENT (mA} FIGURE 5 COLLECTOR CUTOFF REGI Vgc, BASE-EMITTER VOLTAGE (VOLTS) FIGURE 7 BASE CUTOFF REGION Ty = 180C 0 -0.1 -0.2 -0.3 VBE. BASE-EMITTER VOLTAGE {VOLTS) ON Vce = 200V 20k 3-163 @y, TEMPERATURE COEFFICIENTS (m/C) POWER DERATING FACTOR (%) Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) FIGURE 4 COLLECTOR SATURATION REGION 1.0 Ty = 26C 08 0.4 0.2 = 100 mA 0 o5 10 20 50 Ww 20 50 100 200 Ig, BASE CURRENT (mA) FIGURE 6 TEMPERATURE COEFFICIENTS +25 +2.0+ *APPLIES FOR Ic/lg < +18 hre @ Voce = 2.0V 4 +4.0 105) souc tor VeEtsat) 05 -1.0 18 -2.0 -25 20 -55C to ic, COLLECTOR CURRENT {mA} FIGURE 8 POWER DERATING 100 DERATING 40 THERMAL DERA 20 20 40 60 80 6100 =120 1 Tc, CASE TEMPERATURE (C)