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 BU806 BU806 3-380 BUW12A BUW12A 3-476 BU807 8U807 3-380 BUW13 Buv4gP 3-489 BUsi1 MJE16002 3-976 BUW13A BUV48A 3-469 BUS12 BUX47 3-499 BUW24 BU326A 3-363 BUS12A BUX47A 3-499 BUW25 BU326A 3-363 BUS13 BUX48 3-506 BUW26 BUS326A ~ BUS13A BUX48A 3-506 BUW34 BUX47 3-499 BUS14 BUX98 _ BUW35 BUX47 3-499 BUST4A BUX98A BUW3E BUX47A 3-499 BUS46P MJE16002 3-976 BUW44 BUX48 3-506 BUS47 BUX47 3-499 Buw45 BUX48 3-506 BUS47A BUX47A 3-499 BUW46 BUX48A 3-506 BUS47AP BUV47A 3-462 BUW72 MJE13008 3-950 BUS47P BUV47 3-462 BUW74 BUX47 3-499 BUS48 BUX48 3-506 BUW75 BUX47 3-499 BUS48A BUX48A 3-506 BUW76 BUX47 3-499 BUS48AP BUV48A 3-469 BUW77 BUX47 3-499 BUS48P BUV48 3-469 BUW81 MJ10014 3-600 BUS5O BUS5O 3-382 BUW81A MJ10014 3-600 BUSS1 BUS51 3-384 BUW84 MJE13003 3-938 BUS52 BUSS1 3-384 BUW85 MJE13003 3-938 BUS97 MJ16010 3-758 BUX13 BUX13 3-484 BUS97A MJ16010A, 3-766 BUX14 BUX14 _ BUSS8 BUX98 - BUX14CECCF BUX14 _ BUS98A BUX98A - BUX14CECCL BUX14 _ BUTI3 BUT13 3-393 BUX15 BUX47A 3-499 BUT14 BUT14 3-399 BUX15CECCF BUX47A 3-499 BUT15 BUT15 3-405 BUX15CECCL BUX47A 3-499 BUT33 BUT33 3-411 BUX16 2N6543 3-215 BUT34 BUT34 3-417 BUX16A 2N6543 3-215 BUT35 BUT35. 3-423 BUX16B 2N6543 3-215 BUT50P BUTSOP 3-429 BUX16C 2N6543 3-215 BUTSiP BUT51P 3-431 BUX17 BUX48 3-506 BUTSO BUSSO 3-382 BUX17A BUX48 3-506 BUTS1 BUS51 3-384 BUX17B BUX48 3-506 BUT92 BUSS1 3-384 BUX17C BUXa8 3-506 BUV10 BUV10N 3-432 BUX18 2N6545 3-221 BUVION BUV10N 3-432 BUX18A 2N6545, 3-221 BUV11 BuVt1 3-435 BUX18B 2N6545 3-221 BUVIIN Buvi1 3-436 BUX18C 2N6545 3-221 BUV12 BUV12 3-441 BUX33 BUX39 3-487 BUV18 BUSS 3-382 BUX40 BUX40 3-490 BUV19 BUS50 3-382 BUX41 BUX41 3-493 BUV20 BUV20 3-444 BUX4iN BUX41 3-493 Buv21 BUV21 3-447 BUX42 BUX13 3-484 BUV21N BUV21 3-447 BUX43 BUX13 3-484 BUV22 BUV22 3-453 BUX47 BUX47 3-499 BUV23 BUV23 3-456 BUX47A BUX47A 3-499 BUV24 BUS98 3-386 BUX48 BUX48 3-506 BUV25 BUS98A 3-386 BUX48A BUX48A 3-506 BUV44 BUX47 3-499 BUX48S BUX48 3-506 BUV45 BUX47A 3-499 BUX66 2N6211 3-161 BUV46 2N6543 3-216 BUX66A 2N6212 3-161 BUV47 BUV47 3-462 BUX66B 2N6212 3-161 BUV47A BUV47A 3-462 BUX66C 2N6213 3-161 BUV48 BUV4s 3-463 BUX67 2N3584 3-20 BUV48A BUV48A 3-469 BUX67A 2N3584 3-20 BUW11 BUW11 3-476 BUX67B 2N3585 3-20 BUWI1A BUW11A 3-476 BUX67C 2N4240 3-20 BUWI2 BUWI2 3-476 BUX81 MJ13335 3-700 *Consult Motorola if a direct replacement is necessary. 1-27TABLE 1 METAL TO-204, TO-204AE (continued) Resistive Switching IeCont | VcEO(sus) i ts tt fr Pp (Case) Amps Volts Device Type hee @ic BS BS @Ic MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 25 60 2N5885 2N5883 20/100 10 1 0.8 10 4 200 80 2N5886 2N5884 20/100 10 1 0.8 10 4 200 2N6436 30/120 10 1 0.25 10 40 200 100 2N6338 2N6437 30/120 10 1 0.25 10 40 200 120 2N6339 2N6438 30/120 10 1 0.25 10 40 200 125 BUV10 10 min 20 1.2 0.25 20 8 150 BUV10N 10 min 20 1.55 0.45 15 10 175 140 2N6340 30/120 10 1 0.25 10 40 200 150 2N6341 30/120 10 1 0.25 10 40 200 500 BUT14## 15 min 16 2.8 0.8 16 175 28 400 BUT13## 20 min 20 2.6 0.8 18 175 30 40 2N3771 15/60 15 2 150 2N5301 2N4398 15/60 15 2 1 10 2 200 60 2N5302 2N4399: 15/60 15 2 1 10 2 200 MJ11012## | MJ11011## 1k min 20 4# 200 30 BUX39 8 min 20 1 0.25 20 8 120 MJ110144# | MJ11013#4 1k min 20 4# 200 100 2N6328 6/30 30 3 200 MJ802 MJ4502 25/100 7.5 2 200 120 MJ1101644 | MJ1101544 1k min 20 4# 200 325 BUV23e 8 min 16 1.8 0.4 16 8 250 400 BUS98e 8 min 20 2.3 0.4 20 250 BUX98 3 0.8 20 250 450 BUS98Ae 8 min 16 2.3 0.4 16 250 BUXS98A 3 0.8 16 250 MJ16020 5 min 30 1.8 0.2 20 250 MJ160220 7 min 30 0.15 20 250 40 160 BUV21Ne 10 min 40 1 0.2 40 250 200 BUV21e 10 min 25 1.8 0.4 25 8 150 250 BUS52e 15 min 40 350 BUV22e 10 min 20 1.1 0.35 20 8 250 350 MJ10022e##4 50/600 120 2.5 0.9 20 250 400 MJ100230#4# 50/600 10 2.5 0.9 20 250 700 BUT350#4# 15 min 24 4 1.2 24 250 50 60 2N56a5e 2N568360. 15/60 25 0.5 typ | 0.3 typ 25 2 300 MJ11028e## | MJ11029e## 400 min 50 300 80 2NS56860 2N56840 15/60 25 0.5 typ | 0.3 typ 25 2 300 2N6377@ 30/120 20 0.8 0.25 20 30 250 90 MJ110300## | MJ110310## 400 min 50 300 100 2N62746 2N6378 30/120 20 0.8 0.25 20 30: 250 120 2N6275 2N63796 30/120 20 0.8 0.25 20 30 250 MJ110320e## | MJ110330## 400 min 50 300 125 BUV20e 10 min 50 1.2 0.25 50 8 250 150 2N6277 30/120 20 0.8 0.25 20 30 250 @ Modified TO-3 60 mil pins, # |hfel @ 1 MHz, ## Darlington (continued) [| JAN, JTX, JTXV Available 2-7TABLE 14 SWITCHMODE POWER TRANSISTORS (continued) Resistive Switching VcEO{sus)| IcCont VcEV Device Type ts tt fr | Pp {Case} Volts Amps Volts NPN unless hre @li MS BS @l | MHz Watts Case Min Max Min otherwise noted | Min/Max | Amp | Max | Max | Amp | Min | @ 25C JEDEC/MOT 400 8 850 2N6545*% 7/35 5 4 1 5 6 TO-204/1 800 MJE5742# 200/400 4 8typ | 2 typ 6 TO-220/221A 800 MJE16080 5 min 8 2 0.5 5 80 TO-220/221A 850 BUW12 6 min 6 4 0.8 5 125 TO-218/340 850 BUX84 30 min 01 3.5 1.4 1 4 50 TO-220/221A 700 MJE13007* 6/30 5 3 0.7 5 4 TO-220/221A 650 MJ13080% 8 min 5 1.5 0.5 5 TO-204/1 650 MJE16106 6/25 8 2 typ 10.1 typ 5 100 TO-220/221A 650 MJH16106 6/25 8 2 typ 10.1 typ 5 125 TO-218/340 450 MJ6503-PNP* 15 min 2 2 0.5 4 TO-204/1 450 MJE5852-PNP* | 15 min 2 2 0.5 4 TO-220/221A 6 900 BU326A 30 typ 0.6 3.5 1** 2.5 6 90 TO-204/1 900 BU426A 30 typ 0.6 2typ |O.5typ] 2.5 6 typ 113 TO-218/340D 5 850 2N6543* 7/35 3 4 0.8 3 6 TO-204/1 850 BUW11 6 min 3 4 0.8 3 125 TO-218/340 650 MJ13070* 8 min 3 1.5 0.5 3 TO-204/1 650 MJE13070* 8 min 3 1.5 0.5 3 TO-220/221A 4 700 MJE13005* 6/30 3 3 0.7 3 4 TO-220/221A 15 700 MJE13003* 5/25 1 4 0.7 1 5 TO-225AA/77R 0.5 400 MJ4647-PNP 20 min 0.5 0.72* 0.05 40 TO-205AD/79 375 6 800 BU326 30 typ 0.6 3.5 1** 2.5 6 90 TO-204/1 800 BU426 30 typ 0.6 2typ |O.5typ}| 2.5 6 typ 113 TO-218/340D 350 40 450 MJ10022##%& 50/600 10 2.5 0.9 20 TO-204/197 20 450 MJ10000# * 40/400 10 3 1.8 10 10** TO-204/1 450 MJ10004##* 40/400 10 1.5 0.8 10 10** TO-204/1 15 375 2N6251 6/50 10 3.5 1 10 2.5 TO-204/1 10 450 MJ10002#* 30/300 5 2.5 1 5 10** TO-204/1 450 MJ10006##* 30/300 5 1.5 0.5 5 10** TO-204/1 400 MJ13014% 8/20 5 2 0.5 5 TO-204/1 8 700 2N6308 12/60 3 1.6 0.4 5 5 TO-204/1 700 MJE5741# 200/400 4 8typ | 2typ 6 TO-220/221A 400 MJE5851-PNP 15 min 2 2 05 4 TO-220/221A 2 400 2N6213-PNP 10/100 1 2.5 0.6 1 4 TO-213AA/80 325 30 400 BUV23 8 min 16 1.8 0.4 16 8 250 TO-204/197 15 400 BUX13 8 min 8 2.5 0.8 8 150 TO-204/1 5 350 2N6235 25/125 1 3.5 0.5 1 20 TO-213AA/80 300 15 650 2N6546% 6/30 10 4 0.7 10 |6to 24 TO-204/1 12 600 MJE13008%* 6/30 8 3 0.7 8 4** TO-220/221A 8 600 2N6307 15/75 3 1.6 0.4 3 5 TO-204/1 600 MJE13006* 6/30 5 0.? 5 4 TO-220/221A 600 MJE5740 200/400 4 8 typ | 2 typ 6 TO-220/221A 350 MJE5850-PNP* | 15 min 2 2 0.5 4 TO-220/221A 400 2N6498 10/75 2.5 1.8 0.8 2.5 5 TO-220/221A 600 MJE13004* 6/30 3 3 0.7 3 4 TO-220/221A 2 500 2N3585 25/100 1 4 3 1 10 TO-213AA/80 500 2N6422-PNP 25/100 1 4 3 1 10 TO-213AA/80 350 2N6212-PNP 10/100 1 2.5 0.6 1 4 TO-213AA/80 1.5 600 MJE13002* 5/25 1 4 0.7 1 5 TO-225AA/77R w Designers Data Sheet characterization (continued) # Darlington ## Darlington with speed-up diode * tort ** Ife] @ 1 MHz 2-29MOTOROLA = ae SEMICONDUCTOR Bwv23 SWITCHMODE SERIES 30 AMPERES NPN SILICON POWER TRANSISTOR NPN SILICON POWER . . . . . METAL TRANSISTOR . designed for high current, high speed, high power applications. 325 VOLTS 250 WATTS @ High DC current gain: HFE min. = 15 at Ic=8A @ Low VCE(sat), VCE(sat) Max. = 0.8 V at lc=8A @ Very fast switching times: Te =04 ys atlc=16A MAXIMUM RATINGS S Rating Symbol Value Unit Collector-Emitter Voltage VCEO(sus) 325 Vde Collector-Base Voltage VcsBo 400 Vde Emitter-Base Voltage VEBO 7 Vde Collector-Emitter Voltage (VBE = 1.5 V) VcEx 400 Vde A = N | Collector-Emitter Voltage (RgE = 10092) VCER 390 Vde _ ft { Coltector-Current continuous le 30 Ade i} fy c 727] SEATING peak (pw < 10 ms) ' 40 Apk | =F! pane peak (pw S cM p E Base-Current continuous ip 6 Adc D wpe D 2A. Total Power Dissipation @ Tc = 25C Pp 250 Watts [4] 6030/0012 @ a y | Operating and Storage Junction Ty, Tstg c u Temperature Range 65 to 200 THERMAL CHARACTERISTICS Characteristic Symbol Max, Unit Thermal Resistance, Junction to Case 83c 0.7 C ao] [4] o025i000 |=[@ | NOTES FIGURE 1.- POWER DERATING 1 DIMENSIONING AND TOLERANCING PER ANS! 2. CONTROLLING DIMENSION: INCH STYLE 1 PIN 1, BASE 2, EMITTER CASE. COLLECTOR DERATING FACTOR 188 CASE 197A-02 0 40 80 120 160 200 TO-204AE Te, TEMPERATURE (C) (TO-3} 3-456BUV23 ELECTRICAL CHARACTERISTICS (Tc. = 25C unless otherwise noted) | Characteristic OFF CHARACTERISTICS! Symbol Max. Unit Coliector-Emitter Sustaining Voltage (Ic = 200 mA, Ip = 9, L = 25 mH) VcEO(sus) 325 Vde Collector Cutoff Current at Reverse Biais: (Voge = 400 V, Vag =1.5 V) (VWcE = 400V, Vag =-1.5 V, To =125C)} 'CEX 3.0 12 mAdc Collector-Emitter Cutoff Current (VceE = 260 V) ICEO 3.0 mAdc Emitter-Base Reverse Voltage (I_ =50 mA) VEBO Emitter-Cutoff Current (Veg=5V) leo mAdc SECOND BREAKDOWN Second Breakdown Collector Current with base forward biased (Vee = 20V,t=1s} (VcE=140 V,t=1s) 'S/o 12 0.15 Adc ON CHARACTERISTICS! OC Current Gain lic = 8A, VcE =4 V) (ie =16 A, Voce =4 V) KFE 60 Collector-Emitter Saturation Voltage (Ig= 8A, 1p=1.6A) (Ic =16 A, Ig =3.2 A) VCE(sat) 0.8 1.0 Vde Base-Emitter Saturation Voltage {ic =16 A, 1p = 3.2 A} VBE (sat) Vde DYNAMIC CHARACTERISTICS Current Gain Bandwidth Product (Vee =15 V, IG =2A, f=4MH2) fT 8.0 MHz SWITCHING CHARACTERISTICS (Resistive Load) Turn on Time Io =16 A, 1g4=Ip2 = 3.2A. Storage Time " (Vcc =100 V,RC =6.25 82) Fall Time 0.8 2.5 0.4 1 pulse Test: Putse Width <300 Us, Duty Cycie <2%. 3-457Ic, COLLECTOR CURRENT (A) V_ VOLTAGE (V} s 28 2s = o4 100 BUV23 FIGURE 2 ACTIVE REGION SAFE OPERATING AREA 10 100 328 Vee, COLLECTOR EMITTER VOLTAGE (v) FIGURE 3 - ON VOLTAGES ig/ip = 5 VBE(sat} VCE(sat) t 18 Ic, COLLECTOR CURRENT {A} FIGURE 4 DC CURRENT GAIN VCE = 5 1 10 Ig, COLLECTOR CUPRENT (A) 3-458 There are two limitations on the power handting ability of a transistor: average junction temperature and second break down. Safe operating area curves indicate Ic -VCE limits of the transistor that must be observed for reliable operation te, the transistor must not be subjected to greater dissipa tion than the curves indicate. The data of figure 2 is based on To 25C; Ty(pk) is variable depending on power level. Second breakdown limitations do not derate the same as thermal jimitations. At high case temperatures, thermal limitations will reduce the power that can handled to values less than the limitations imposed by second breakdown, (See AN415A) FIGURE 5 RESISTIVE SWITCHING PERFORMANCE Voc = 100 tenet = {1 = Ia2 t, TIME {us} a 4 g V2 16 20 Ic. COLLECTOR CURRENT (A} FIGURE 6 SWITCHING TIMES TEST CIRCUIT Veco ches 600 ne ae ay "2 - Vee 100V Vet Br Fo 682 BR 2202 Rg ~ Rg: Non inductive resistances