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 2N5664 2N3585 3-20 2N5882 2N5882 3-123 2N5665 2N3685 3-20 2N5883 2N5883 3-127 2N5671 2N6338 3-188 2N5884 2N5884 3-127 2N5672 2N6339 3-188 2N5885 2N5885 3-127 2N5678 2N6378 3-191 2N5886 2N5886 3-127 2N5683 2N5683 3-112 2N5929 2N6338 3-188 2N5683JAN 2N5683JAN 3-112 2N5930 2N6338 3-188 2N5683JTX 2N5683JTX 3-112 2N5931 2N6341 3-188 2N5683UTXV 2N5683JTXV 3-112 2N5932 2N6338 3-188 2N5684 2N5684 3-112 2N5933 2N6338 3-188 2N5684JAN 2N5684J AN 3-112 2N5935 2N6341 3-188 2N5684JTX 2N5684JTX 3-112 2N5936. 2N6338 3-188 2N5684TXV 2N5684)TXV 3-112 2N5937 2N6341 3-188 2N5685 2N5685 3-112 2N5954 2N6318 3-185 2N5685JAN 2N5685JAN 3-112 2N5955 2N6317 3-185 2N5685JTX 2N5685JTX 3-112 2N5956 2N6317 3-185 2N5685JTXV 2N5685JTXV 3-112 2N5976 2N5882 3-423 2N5686 2N5686 3-112 2N5971 2N5882 3-123 2N5686JAN 2NS686JAN 3-112 2N5972 MJ15003 3-713 2N5686JTX 2N5686JTX 3-112 2N5974 MJE2955 3-904 2N5686TXV 2N5686JTXV 3-112 2N5975 MJE2965 3-904 2N5729 2N5337 3-97 2N5976 MJE2985 3-904 2N5730 2N5339 3-97 2N5977 MJE3055 3-904 2N5733 2N6274 3-168 2N5978 MJE3085 3-904 2N5734 2N6338 3-188 2N5979 MJE3065 3-904 2N5737 2N5878 3-120 2N5980 MJE2955 3-904 2N5738 2N5880 3-123 2N5981 MJE2955 3-904 2N5739 2N5878 3-120 2N5982 2N5988 3-131 2N5740 2N5880 3-123 2N5983 MJE3065 3-904 2N5741 2N5883 3-127 2N5984 MJE3085 3-904 2N5742 2N6029 3-105 2N5985 2N5991 3-134 2N5743 2N5883 3-127 2N5986 2N6498 3-214 2N5744 MJ4502 3-536 2N5987 2N6490 3-207 2N5745 2N5745 3-68 2N5988 2N6491 3-207 2N5745JAN 2N5745JAN 3-68 2N5989 2N5989 3-131 2N5745JTX 2N5745JTX 3-68 2N5990 2N5991 3-131 2N5745STXV 2N5745JTXV 3-68 2N5991 2N5991 3-131 2N5758 2N5758 3-116 2N6021 TIP32C 3-1073 2N5759 2N3055A 3-9 2N6022 TIP32C 3-1073 2N5760 2N5760 3-116 2N6023 2N6124 3-154 2N5804 2N6306 3-181 2N6024 2N6124 3-184 2N5805 2N6543 3-215 2N6025 2N6125 3-154 2N5838 2N6308 3-181 2N6026 2N6125 3-154 2N5839 2N6308 3-181 2N6029 2N6029 3-105 2N5840 2N6308 3-181 2N6030 2N6030 3-105 2N5867 2N3789 3-56 2N6031 2N6031 3-105 2N5868 2N3790 3-56 2N6032 2N6275 3-168 2N5869 2N3714 3-26 2N6033 2N6277 3-168 2N5870 2N3714 3-26 2N6034 2N6034 3-136 2N5871 2N3789 3-56 2N6035 2N6035 3-135 2N5872 2N3790 3-56 2N6036 2N6036 3-135 2N5873 2N3714 3-26 2N6037 2N6037 3-135 2N5874 2N3714 3-26 2N6038 2N6038 3-138 2N5875 2N5875 3-120 2N6039 2N6039 3-135 2N5876 2N5876 3-120 2N6040 2N6040 3-139 2N5877 2N5877 3-420 2N6041 2N6041 3-139 2N5878 2N5878 3-120 2N6042 2N6042 3-139 2N5879 2N5879 3-123 2N6043 2N6043 3-139 2N5880 2N5880 3-123 2N6044 2N6044 3-139 2N5881 2N5881 3-123 2N6045 2N6045 3-139 *Consult Motorola if a direct replacement is necessary. 1-5TABLE 1 METAL TO-204, TQ-204AE (continued) Resistive Switching icCont | VCEO{(sus) . ts tt fr Pp (Case) Amps Volts Device Type hrE @ic | as us | @ig | MHz | Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 10 250 MJ15011 MJ15012 20/100 2 200 300 MJ30414## 250 min 2.5 175 325 MJ413 20/80 0.5 2.5 125 MJ423 30/90 1 2.5 125 MJ431 15/35 2.5 25 125 350 BU3234# 150 min 6 7.5 typ | 5.2 typ 6 175 MJ3042#4 250 min 2.5 175 MJ13014 8/20 5 2 0.5 5 150 MJ100024# 3/300 5 2.5 1 5 10# 150 MJ100064#4 30/300 5 1.5 0.5 5 10# 150 400 BU323A4# 450 min 6 7.5typ | 5.2 typ 6 175 MJ100074## 30/300 5 1.5 0.5 5 10# 150 MJ1001244 100/2k 6 15 15 6 175 MJ13015 8/20 5 2 0.5 5 150 600 MJ100144# 10/250 10 2.5 0.8 10 175 700 MJ8504 7.5 min 1.5 4 2 5 175 800 MJ8505 7.5 min 1.5 4 2 5 176 MJ16018 4min 5 4.5 typ | 0.2 typ 5 160 950* MJ12010 4.2 min 5 1 5 100 12 60 2N6057## 2N6050## 750/18k 6 1.6 typ | 1.5 typ 6 4# 150 80 2NEO5B4# | 2NGOSI## =| 750/18k 6 1.6 typ | 1.5 typ 6 4# 150 100 2N60594## 2N6052## 750/18k 6 1.6 typ | 1.5 typ 6 4# 150 15 60 2N3055 MJ2955 20/70 4 0.7 typ | 0.3 typ 4 2.5 115 2N3055A MJ2955A 20/70 4 0.8 115 2N6576## 2k/20k 4 2 7 10 10-2004 120 2N5881 2N5879 20/100 6 1 0.8 6 4 160 80 2N5882 2N5880 20/100 6 1 0.8 6 4 160 30 2N6577## 2k/20k 4 2 7 10 10-2004 120 120 MJ15015 MJ15016 20/70 4 1 180 2N6578## 2k/20k 4 2 7 10 10-200# 120 140 MJ15001 MJ15002 25/150 4 2 200 150 MJ110184##4 MAI11017#4 100 min 15 3# 178 200 BUX41 8 min 8 1.5 0.4 8 8 120 2N6249 10/50 10 3.5 1 10 2.5 175 MJ11020#4# MJ110194# 100 min 15 34 175 250 MJ11022## MJ110214# 100 min 15 a4 175. 275 2N6250 8/50 10 3.5 1 10 2.5 175 300 2N6546 6/30 10 4 0.7 10 6 to 24 175 325 BUX13 8 min 8 2.5 0.8 8 8 150 400 BUX48 8 min 10 2 0.4 10 175 2N6547 6/30 10 4 0.7 10 6 to 24 175 MJ13090 8 min 10 2.5 0.5 10 175 MJ16110 6/20 16 0.8 typ | 0.1 typ 10 175 450 BUX48A 8 min 8 2 0.4 10 178 MJ16010 5 min 15 1.2 typ | 0.2 typ 10 178 * ViBR)CEX. # Ihfel @ 1 MHz, ## Darlington (continued) | JAN, JTX, JTXV Available 2-5TABLE 13 POWER SWITCHING TRANSISTORS (continued) Resistive Switching 2-25 Smpe Wepoeus) Device Type hfe | @lc a us @I Miz *evatts Case Max Min NPN PNP Min/Max | Amp | Max Max Amp | Min | @ 25C JEDEC/MOT 4 30 BD185 15 min 2 20 40 TO-225AA/77 45 BD785 BD786 20 min 50 15 TO-225AA/77 60 2N4877 20/100 4 1.5 05 4 30 10 TO-205AD/79 BD189 15 min 2 20 40 TO-225AA/77 BD787 BD788 20 min 2 50 15 TO-225AA/77 80 BD789 BD790 10 min 2 40 15 TO-225AA/77 100 BD791 BD792 10 min 2 40 15 TO-225AA/77 5 80 2N5337 2N6191 60/240 2 2 0.2 2 30 10 TO-205AD/79 100 2N5339 2N6193 60/240 2 2 0.2 2 30 10 TO-205AD/79 7 60 2N6315 2N6317 20/100 2.5 1 0.8 2.5 4 90 TO-213AA/80 80 2N5428 60/240 2 2 0.2 2 30 60 TO-213AA/80 2N6316 2N6318 20/100 2.5 1 0.8 2.5 4 90 TO-213AA/80 100 2N5430 60/240 2 2 0.2 2 30 60 TO-213AA/80 75 60 2N3447 40/120 5 2 0.35 5 10 115 TO-204/1 80 2N3448 40/120 5 2 0.35 5 10 115 TO-204/1 8 120 MJE15028 MJE15029 20 min 4 0.4 typ | 0.18 typ 5 30 50 TO-220/221A 150 MJE15030 MJE15031 20 min 4 0.4 typ | 0.18 typ 5 30 50 TO-220/221A 10 60 2N5877 2N5875 20/100 4 1 0.8 4 4 150 TO-204/1 80 2N5878 2N5876 20/100 4 1 0.8 4 4 750 TO-204/1 15 60 2N5881 2N5879 20/100 6 1 0.8 6 4 160 TO-204/1 80 2N5882 2N5880 20/100 6 1 0.8 6 4 160 TO-204/1 18 160 BUX41N 8 min 12 1.2 0.25 12 8 120 TO-204/1 20 75 2N5039 20/100 10 1.5 0.5 10 60 140 TO-204/1 80 2N5303 2N5745 15/60 10 2 1 10 2 200 TO-204/1 90 2N5038 20/100 12 1.5 05 12 60 140 TO-204/1 125 BUX40 8 min 15 1 0.25 15 8 120 TO-204/1 160 BUV11IN 10 min 15 1.2 0.25 15 8 150 TO-204/1 25 60 2N5885 2N5883 20/100 10 1 0.8 10 4 200 TO-204/1 80 2N5886 2N5884 20/100 10 1 0.8 10 4 200 TO-204/1 2N6436 30/120 10 1 0.25 10 40 200 TO-204/1 100 2N6338 2N6437 30/120 10 1 0.25 10 40 200 TO-204/1 120 2N6339 2N6438 30/120 10 1 0.25 10 40 200 TO-204/1 125 BUV10 10 min 20 1.2 0.25 20 8 150 TO-204/1 BUVION 10 min 20 1.55 0.45 15 10 175 TO-204/1 140 2N6340 30/120 10 1 0.25 10 40 200 TO-204/1 150 2N6341 30/120 10 1 0.25 10 40 200 TO-204/1 30 40 2N5301 2N4398 15/60 15 2 1 10 2 200 TO-204/1 60 2N5302 2N4399 15/60 15 2 1 10 2 200 TO-204/1 90 BUX39 8 min 20 1 0.25 20 8 120 TO-204/1 (continued)MOTOROLA m@ SEMICONDUCO yyy TECHNICAL DATA PNP 2N5879, 2N5880 NPN 2N5881, 2N5882 COMPLEMENTARY SILICON HIGH-POWER TRANSISTORS . designed for general-purpose power amplifier and switching applications. Collector-Emitter Sustaining Voltage VCEO(sus) = 60 Vde (Min) 2N5879, 2N5881 = 80 Vde (Min) 2N5880, 2N5882 @ DC Current Gain hee = 20 (Min) @ Ic = 6.0 Ade Low Collector Emitter Saturation Voltage VCE{sat) = 1-0 Vde (Max) @ Ic = 7.0 Adc @ High Current Gain-Bandwidth Product ft = 4.0 MHz (Min) @ Ic = 1.0 Adc @ Recommended for New Circuit Designs 15 AMPERE COMPLEMENTARY SILICON POWER TRANSISTORS 60-80 VOLTS 160 WATTS *MAXIMUM RATINGS 3 2N5879 2N5880 Rating Symbol 2N5881 2N5882 Unit Collector-Emitter Voltage VcEO 60 80 Vde Coliector-Base Voltage Voce 60 80 Vde Emitter-Base Voltage VEB 5.0 Vde Collector Current Continuous le 15 Adc Peak 30 Base Current ig 5.0 Adc Total Device Dissipation @ Tc = 25C Pp 160 Watts Derate above 25C 0.915 w/c Operating and Storage Junction TaTstg -65 to +200 C Temperature Range THERMAL CHARACTERISTICS Characteristic Symbot Max Unit Thermal Resistance, Junction to Case OIC 1.1 oc/iw *iIndicates JEDEC registered data. Limits and conditions differ on some parameters and re- registration reflecting these changes has been requested. All above values meet or exceed present JEDEC registered data. FIGURE 1 POWER DERATING 160 140 120 100 80 60 40 Pp, POWER DISSIPATION (WATTS) 0 25 50 75 100 125 150 75-200 Tc, CASE TEMPERATURE (C) STYLE 1 PIN 1. BASE 2. EMITTER A CASE COLLECTOR eS a | c t cae __K Dizm [+] 013008 Jr v G]a @] | Le (1 4 0.13 (0.905) [T] ve | NOTES. 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH 3. ALL RULES AND NOTES ASSOCIATED WITH REFERENCED T0-204AA QUTLINE SHALL APPLY, 0.151. 0. 9190, 0210 4, CASE 1-06 TO-204AA (TO-3) 3-1232N5879, 2N5880 PNP, 2N5881, 2N5882 NPN ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) [ Characteristic [ symbot ] min | max | unit] OFF CHARACTERISTICS Collector-Emitter Sustaining Voltage {1) VCEO (sus) Vdc (Ic = 200 mAdc, Ig = 0) 2N5879, 2N5881 60 ~ 2N5880, 2N5882 80 ~ Collector Cutoff Current IcEOQ mAde (Vce = 30 Vdc, Ig = 0} 2N5879, 2N5881 - 1.0 (VcE = 40 Vdc, Ig = 0) 2N5880, 2N5882 ~ 1.0 Collector Cutoff Current ICEx mAdc (Voce = 60 Vde, Vge {ots} = 1.5 Vdel 2NS879, 2N5881 - Os (VcE = 80 Vdc, VgE (off) = 1.5 Vded 2N5880, 2N5882 - 0.5 (VcE = 60 Vdc, Vee (ott) = 1.5 Vde, Te = 150C) 2N5879, 2N588t - 5.0 (Vce = 80 Vdc, Vee (otf) = 1.5 Vde, Te = 150C) 2N5880, 2N5882 _ 5.0 Collector Cutoff Current \cBo mAdc (Vcp = 60 Vdc, Ig = 0) 2N5879, 2N5881 - 0.5 (Vog = 80 Vde, Ig = 0) 2N5880, 2N5882 - 0.5 Emitter Cutoff Current lEBO - 1.0 mAdc (Veg = 5.0 Vdc, Ic = O} ON CHARACTERISTICS OC Current Gain {1} hre ~ (Ig = 2.0 Ade, Veg = 4.0 Vdc) 36 - (ic = 6.0 Adc, Veg = 4.0 Vdc} 20 100 (Ile = 15 Adc, Vce = 4.0 Vde) 4.0 = Collector-Emitter Saturation Voltage (1) VCE (sat) Vde (lc = 7.0 Adc, Ig = 0.7 Adc) - 1.0 (Ig = 15 Ade, Ig = 3.75 Adc) x 4.0 Base-E mitter Saturation Voltage (1) VBE (sat) - 2.5 Vde (ic = 15 Ade, tg = 3.75 Ade) Base-Emitter On Voltage (1} VeE(on) ~ 1.5 Vde (Ig = 6.0 Ade, Veg = 4.0 Vde} DYNAMIC CHARACTERISTICS Current-GainBandwidth Product (2) fT 4.0 - MHz (Ic = 1.0 Adc, Veg = 10 Vde, frest = 1.0 MHz) Output Capacitance Cob pF (Veg = 10 Vdc, Ie = 0, f = 100 kHz} 2N5879, 2N5880 - 600 2N5881, 2N5882 - 400 Small-Signal Current Gain hfe 20 - | _ {Ic = 2.0 Adc, Voce = 4.0 Vdc, f = 1.0 kHz) SWITCHING CHARACTERISTICS Rise Time tr _ 0.7 uS (Voc = 30 Vdc, Ic = 6.0 Ade, Storage Time ts = 1.0 BS L ig1 = B2 = 0.6 Ade See Figure 2} [Fall Time tf - 0.8 us *(ndicates JEDEC Registered Data. (1) Pulse Test: Pulse Width S 300 us, Duty Cycle S 2.0% (2) fr = [hfe] frest FIGURE 2 SWITCHING TIMES TEST CIRCUIT FIGURE 3 TURN-ON TIME 2.0 - vec -30V 10 Voc = 30V / : Ic/lp = 10 0.7 Ty = 25C 5.0 3 C 0.5 SCOPE RB q 03 15 ze 02 = 51 o4 25 ps 0.1 tq @ VBE(off) = 5.0 V ty, tp 10 ns te +7.0V = 0.07 DUTY CYCLE - 1.0% ~ ~ 0.05 FOR CURVES OF FIGURES 3 and 6, eT _ , Rp and Rc ARE VARIED TO OBTAIN 2N5881, 2N5882 DESIRED CURRENT LEVELS 0.03 For NPN test circuit, D} MUST BE FAST RECOVERY TYPE, eg 0.02 reverse all polarities. MB05300 USED ABOVE !g = 100 mA 02 03 05 07 10 20 30 50 7.0 10 20 MSO6100 USED BELOW Ig 100 ma Ic, COLLECTOR CURRENT (AMP) 3-1242N5879, 2N5880 PNP, 2N5881, 2N5882 NPN FIGURE 4 THERMAL RESPONSE 1.0 a 47 Z. 05 #8 RN 93 Sa a z= 0.2 j gz Pink} = ot S 20.07 u 5 & 0.08 Aycit) = tt) Buc ia Oyu = 1.1CWV Max ty = 0.03 DUTY CYCLE, B= 14/2 D CURVES APPLY FOR POWER = 0.02 PULSE TRAIN SHOWN ~ READ TIME Atty 0.01 Tyipk) TC = Pipk) Acid) 0.01 0.02 0.03 90.05 6.1 02 08 0.5 1.0 2.0 3.0 5.0 10 20 30 50 100 200 300 500 1900 1, TIME {ms) FIGURE 5 ACTIVE-REGION SAFE OPERATING AREA 100 50 5.0 ms ms 94 = ba There are two limitations on the power handling ability of a = - transistor: average junction temperature and second breakdown. a Safe operating area curves indicate Ic VceE limits of the tran- = Ty = 200C sistor that must be observed for reliable operation, i.e., the 2 5.0 SECOND BR LIMITED transistor must not be subjected to greater dissipation than the c 3.0b-- BONDING WIRE LIMITED curves indicate =} =~ THERMAL LIMITATION @ Te = 25" _ . . . 5 20 (SINGLE PULSE) c= 25re The data of Figure 5 is based on Ty(pk) = 200C; Tc is variable = 10 Curves Apply Below Rated VcEQ depending on conditions. Second breakdown pulse limits are 3 valid for duty cycles to 10% provided T J(pk) < 200C. TJ(pk) 3 as may be calculated from the data in Figure 4. At high case ~ 03 temperatures, thermal limitations will reduce the power that can 02 73,2N588) be handled to values less than the limitations imposed by second 2N5880 2N5882 01 breakdown. 1.0 2.0 3.0 60 7.0 10 20 30 50 70 100 Vce, COLLECTOR EMITTER VOLTAGE (VOLTS) FIGURE 6 TURN-OFF TIME FIGURE 7 CAPACITANCE 10 2000 7.0 = Ty = 259C + 250 5.0 Voc = 30 V 1000 Ty 260e Ic/g =O a 3.0 'B1 = 'B2 4 700 2.0 = = = 500 2 3 = 10 aq = S 300 ~ O07 oO 0.5 200 tt 0.3 02 100} ~~ 2N5878,2NS880 . 2N5879, 2N5880 ae 25881, 2N5BB2 2N5881, 2N5882 01 60 02 03 05 07 10 3.0 20 01 02 05 10 20 50 10 20 50 100 Ic, COLLECTOR CURRENT (AMP) VR, REVERSE VOLTAGE (VOLTS) 3-125hee, DC CURRENT GAIN Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) V, VOLTAGE (VOLTS} 2N5879, 2N5880 PNP, 2N5881, 2N5882 NPN PNP 2N5879, 2N5880 FIGURE 8 DC CURRENT GAIN 1000 1000 700 700 500 Vce=4.0V 500 zz 300 = 300 oa 200 + 200 ive a oc 100 2 100 70 a 70 50 gs 30 30 28 20 10 10 02 03 05 07 10 20 30 50 70 10 20 02 0.3 ic, COLLECTOR CURRENT {AMP} NPN 2N5881, 2N5882 Ty = +150C 25C 0.5 07 1.0 20 30 5.0 ic, COLLECTOR CURRENT (AMP) 7.0 10 FIGURE 9 ~ COLLECTOR SATURATION REGION Ty= 2500 0.03 0.05 6.07 0.1 02 03 05 07 1.0 20 30 |g, BASE CURRENT (AMP} FIGURE 10 ON Ty = 250C @tcilg = 10 VBE @Vce=4.0V p= 10 3.8 Q5 07 18 20 39 $0 7 I, COLLECTOR CURRENT (AMP) 20 3-126 Voce, COLLECTOR-EMITTER VOLTAGE {VOLTS} V, VOLTAGE (VOLTS) 2.0 0.8 0.4 0 0.03 VOLTAGES 2.0 0.8 04 0.3 Ic =3.0A 0.05 0.07 0.1 VBE(sat) E(sat) Ty = 250 0.2 03 O5 O07 10 20 3.0 Ig, BASE CURRENT (mAdc) ic/lB = VcE= Ic/lB = 05 07 10 2.0 5.0 0.7 ic, COLLECTOR CURRENT (AMP) 3.0 10 20