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 MJE3738 TIP47 3-1087 MJE5655 TIP47 3-1087 MJE3739 TIP48 3-1087 MJE5656 TIP48 3-1087 MJE4t TIP4t 3-1083 MJE5657 TIP4S: 3-1087 MJE41A TIP41A 3-1083 MJE5730 MJE5850 3-918 MJE41B TIP41B 3-1083 MJES731 MJE5851 3-918 MJE41C TIP41C 3-083 MJE5732 MJE5852 3-918 MJE42 TIP42 3-1083 MJES740 MJE5740 3-914 MJE42A TIPA2A 3-1083 MJE5741 MJE5741 3-914 MJE42B TIP42B 3-1083 MJE5742 MJE5742 3-914 MJE42C TIP42C 3-1083 MJE5850 MJE5850 3-918 MJE4340 MJE4340 3-910 MJE5851 MJE5851 3-918 MJE4341 MJE4341 3-910 MJE5852 MJE5852 3-918 MJE4342 MJE4342 3-910 MJE5960 2N6489 3-207 MJE4343 MJE4343 3-910 MJE5974 TIP42 3-1083 MJE4350 MJE4350 3-910 MJE5975 TIPA2A 3-1083 MJE4351 MJE4351 3-910 MJE5976 TIP42B 3-1083 MJE4352 MJE4352 3-910 MJE5977 TIP4} 3-1083 MJE4353 MJE4353 3-910 MJE5978 TIP41A 3-1083 MJE47 TIP4? 3-1087 MJE5979 TIP44B 3-1083 MJE48 TIP48 3-1087 MJE5980 2N6489 3-207 MJE482 2N5190 3-85 MJE5981 2N6490 3-207 MJE483 2N5191 3-85 MJE5982 2N6491 3-207 MJE484 2N5192 3-85 MJE5983 2N6486 3-207 MJE488 2N5191 3-85 MJE5984 2N6487 3-207 MJE49 TIP49 3-1087 MJE5985 2N6488 3-207 MJE4918 TIP30 3-1071 MJE6040 MJE6040 3-139 MJE4919 TIP30A 3-1071 MJE6041 MJE6041 3-133 MJE492 2N5193 3-89 MJE6042 MJE6041 3-139 MJE4920 TIP30B 3-1071 MJE6043 MJE6043 3-139 MJE4921 TIP29 3-1071 MJE6044 MJE6044 3-139 MJE4922 TIP29A 3-1071 MJE6045 MJE6045 3-139 MJE4923 TIP29B 3-1071 MJE700 MJE700 3-888 MJE493 2N5194 3-89 MJE700T MJE700T 3-888 MJE494 2N5195 3-89 MJE701 MJE701 3-888 MJE51 2N6497 3211 MJE701T TIP125 3-1098 MJE5170 MJE15031 3-972 MJE702 MJE702 3-888 MJE5171 MJE15031 3-972 MJE702T TIP126 3-1098 MJE5172 MJE15031 3-972 MJE703 MJE703 3-888 MJE5180 MJE15030 3-972 MJE703T TIP126 3-1098 MJE5181 MJE15030 3-972 MJE710 2N4918 3-75 MJE5182 MJE15030 3-972 MJE711 2N4919 3-75 MJE5190 2N6121 3-154 MJE712 2N4920 3-76 MJE5191 2N6122 3-154 MJE720 2N4921 3-79 MJE5192 2N6123 3-154 MJE721 2N4923 3-79 MJE5193 2N6124 3-154 MJE722 2N4923 3-79 MJE5194 2N6125 3-154 MJE800 MJE800 3-888 MJE5195 TIP32C 3-1073 MJE800T MJE800T 3-888 MJE51T 2N6497 3211 MJE801 MJE801 3-888 MJE52 2N6498 3-211 MJE801T TIP120 3-1098 MJE520 MJES20 3-886 MJE802 MJE802 3-888 MJE520K THP3t 3-1073 MJE802T TiP121 3-1098 MJE521 MJE521 - MJE803 MJE803 3-888 MJE521K TIP31 3-1073 MJE803T TIP121 3-1098 MJE5220 MJE5221 _ MJE8500 MJE8500 3-924 MJE5221 MJE5221 =_ MJE8501 MJE8501 3-924 MJE5230 MJE5230 _ MJE8502 MJE8502 3-930 MJE5231 MJE5231 MJE8503 MJE8503 3-930 MJES2T 2N6498 3-211 MJF102 MJF102 3-1011 MJES3 MJE13005 3-944 MJF107 MJF107 3-1011 MJE53T MJE13005 3-944 MJF122 MJF122 3-1016 *Consult Motorola if a direct replacement is necessary. 1-35TABLE 5 PLASTIC TO-220 (continued) Resistive Switching IcCont | VcEO{sus) ice T ts te fr Pp (Case) Amps Voits Device Type hee @ Ie BS BS @ ic MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 10 60 D44H7 D45H7 20 min 4 50 D44H8 D45H8 40 min 4 50 D45H9 40 min 4 50 MJE2801T 25/100 3 75 MJE3055T MJE2955T 20/70 4 75 2N6387#4 2N6667## 1k/20k 5 20# 65 SE9300## SE9400## 1k min 4 1# 70 80 BDX33B## BDX34B4# 750 min 3 3 70 BD809 BD810 15 min 4 16 90 D44E3## 1000 min 5 2 typ 0.5 typ 10 50 D45H12 40 min 4 50 2N6388#4 2N66684# 1k/20k 5 20 65 D44H10 D45H10 20 min 4 0.5 typ | 0.14 typ 5 50 typ 50 D44H11 D45H11 40 min 4 0.5 typ | 0.14 typ 5 50 typ 50 SE9301#4 SE9401## 1k min 4 1# 70 100 BDX33C## BDX34C## 750 min 3 3 70 SE9302## SE94024## 1k min 4 1# 70 12 300 MJE13008 6/30 8 3 0.7 8 4 100 400 MJE13009 6/30 8 3 0.7 8 4 100 15 30 D44VH1 D45VH1 20 min 4 0.7 0.09 8 50 typ 83 40 2N6486 2N6489 20/150 5 0.6 typ | 0.3 typ 5 5 78 45 BOoWw39 BDW44 Tk min 5 1 typ 1.5 typ 5 4 85 D44VH4 D45VH4 20 min 4 0.5 0.09 8 50 typ 83 60 2N6487 2N6490 20/150 5 0.6 typ | 0.3 typ 5 5 75 BDW40 BDW45 1k min 5 1 typ 1.5 typ 5 4 85 D44VH7 20 min 4 0.5 0.09 & 50 typ 85 80 2N6488 2N6491 20/150 5 0.6 typ | 0.3 typ 5 5 75 BDW41 BDWw46 1k min 5 1 typ 1.5 typ 5 4 85 D44VH10 D45VH10 20 min 4 05 0.09 8 50 typ 83 100 BDW42 BDWa47 1k min 5 1 typ 4.5 typ 5 4 85 120 BDW43 BDWwa48 1k min 5 1 typ 1.5 typ 5 4 85 # |bfel @ 1 MHz, ## Darlington TABLE 6 PLASTIC Full Pak (TO-220 Type) ig 1 2 3 CASE 221C-02 Resistive Switching IcCont | VcEO{sus) ice T ts te fr Pp (Case) Amps Volts Device Type bFE @iIc BS BS @iIc MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 1 250 MJF47 30/150 0.3 2typ | 0.17 typ 0.3 10 28 5 100 MJF12244 MJFI27##4 2000 min 3 1.5 typ | 1.5 typ 3 4# 28 8 80 MJF6107 30/90 2 0.5 typ | 0.13 typ 2 4 35 100 MJF102## MJF107## 3000 min 3 1.6 typ | 1.5 typ 3 4# 35 150 MJF15030 MJF15031 40 min 3 1typ | 0.15 typ 3 30 35 10 60 MJF3055 MJF2955 20/100 4 2 40 # |hte] @ 1 MHz, ## Darlington 2-14TABLE 12 POWER DARLINGTONS (continued) Resistive Switching {cCont | VcEO{sus) i ts tt |hfel @ | Pp (Case) Amps Volts Device Type hrE @lic BS ws | @ic | 1MHz| Watts Case Max Min NPN PNP Min/Max | Amp Max Max | Amp Min @ 25C JEDEC/MOT 4 40 MJE3300 MJE3310 1k min 1 20 15 TO-225AA/77R 2N6037 2N6034 750/1k 2 1.7 typ | 1.2 typ 2 25 40 TO-225AA/77 45 BD675 BD676 760 min 1.5 40 TO-225AA/77 BD675A BD676A 750 min 2 40 TO-225AA/77 BD776 750 min 2 20 15 TO-225AA/77 60 BD677 BD678 750 min 1.5 16 TO-225AA/77 BD677A BD678A 750 min 2 40 TO-225AA/77 BD777 BD778 750 min 2 20 40 TO-225AA/77 MJE3301 1k min 1 20 15 TO-225AA/77R MJE800 MJE700 750 min 1.5 1 40 TO-225AA/77 MJE800T MJE700T 750 min 1.5 1 40 TO-220/221A MJE801 MJE701 750 min 2 1 40 TO-225AA/77 2N6038 2N6035 750/18k 2 1.7 typ [1.2 typ 2 25 40 TO-225AA/77 2N6294 2N6296 750/18k 2 0.9 typ | 0.7 typ 2 4 50 TO-213AA/80 80 BD679 BD680 750 min 1.5 40 TO-225AA/77 BD679A BD680A 750 min 2 40 TO-225AA/77 BD779 BD780 750 min 2 20 15 TO-225AA/77 MJD6033 MJD6036 1k/12k 2 1.7 typ | 1.2 typ 2 25 20 TO-252/369A-04 MJE802 MJE702 750 min 1.5 40 TO-225AA/77 MJE803 MJE703 750 min 2 40 TO-225AA/77 2N6039 2N6036 750/18k 2 1.7 typ [1.2 typ 2 25 40 TO-225AA/77 2N6295 2N6297 750/18k 2 0.9 typ | 0.7 typ 2 4 50 TO-213AA/80 100 BD681 BD682 750 min 1.5 40 TO-225AA/77 5 60 MJE1100 MJE1090 750 min 3A 1 70 TO-225AB/90 MJE1101 MJE1091 750 min 4A 1 70 TO-225AB/90 TIP120 TIP125 1k min 3 1.5 typ | 1.5 typ 3 4 65 TO-220/221A 80 MJE1102 MJE1092 750 min 3A 1 70 TO-225AB/30 MJE1103 MJE1102 750 min 4A 1 70 TO-225AB/90 TIP121 TIP126 1k min 3 1.5 typ | 1.5 typ 4 65 TO-220/221A 100 MJF122 MJF127 2k min 3 1.5 typ |1.5 typ 3 4 28 ~/221C-02 TIP122 TIP127 1k min 3 1.5 typ | 1.5 typ 3 4 65 TO-220/221A 7 300 MJ3041 250 min 2.5 100 TO-204/1 350 MJ3042 250 min 2.5 100 TO-204/1 375 BU522 250 min 2.5 7.5 75 TO-220/221A 425 BU522A 250 min 2.5 7.5 75 TO-220/221A 450 BUS522B 250 min 2.5 7.5 75 TO-220/221A 8 40 2N6386 1k/20k 3 20 65 TO-220/221A 45 BDX53 BDX54 750 min 3 4 60 TO-220/221A BD8s95 BD896 750 min 3 1 70 TO-220/221A BD895A BD896A 750 min 4 1 70 TO-220/221A 60 BDX53A BDX54A 750 min 3 4 60 TO-220/221A BD897 BDs98 750 min 3 1 70 TO-220/221A BD837A BD898A 750 min 4 4 70 TO-220/221A MJ1000 MJ3900 1k min 3 90 TO-204/1 TIP100 TIP105 1k/20k 3 1.5 typ |1.5 typ 3 4 80 TO-220/221A 2N6043 2N6040 1k/10k 4 1.5 typ [1.5 typ 3 4 76 TO-220/221A 2N6300 2N6298 750k/18k 4 1.5 typ | 1.5 typ 4 4 75 TO-213AA/80 2N6055 2N6053 750k/18k 4 1.5 typ } 1.5 typ 4 4 100 TO-204/1 MJE6043 MJE6040 1k/20k 4 1.5 typ [1.5 typ 4 2 75 TO-225AB/90 80 BDX53B BDX54B 750 min 3 4 60 TO-220/221A BD899 BD900 750 min 3 4 70 TO-220/221A BD8s9A BD900A 750 min 4 1 70 TO-220/221A 2-21 (continued)MOTOROLA = SEMICONDUCTOR ox TECHNICAL DATA NPN Full Pak MJF122 Complementary PNP Power Darlingtons MJF127 For Isolated Package Applications COMPLEMENTARY SILICON Designed for general-purpose amplifiers and switching applications, where the mount- ing surface of the device is required to be electrically isolated from the heatsink or POWER teHES SS chassis. 100 VOLTS @ Isolated Overmold Package (1500 Volts RMS Min) 30 WATTS Electrically Similar to the Popular TIP122 and TIP127 100 VcEO{sus) @ 5 A Rated Collector Current @ No Isolating Washers Required Reduced System Cost @ High DC Current Gain 2000 (Min) @ Ic = 3 Adc CASE 221C-02 TO-220 TYPE MAXIMUM RATINGS Rating Symbol Value Unit Collector-Emitter Voltage VcCEO 100 Vde Collector-Base Voltage VcB 100 Vdc Emitter-Base Voltage VeB 5 Vde Isolation Voltage (RMS for 1 Min) VISOL 1500 Vrms Collector Current Continuous Ic 5 Adc ~ Peak 8 Base Current Ig 0.12 Adc Total Power Dissipation* @ Tc = 25C Pp 30 Watts Derate above 25C 0.24 wrc Total Power Dissipation @ Ta = 25C Pp 2 Watts Derate above 25C 0.016 wre Operating and Storage Junction Temperature Range Ty. Tstg 65 to +150 C THERMAL CHARACTERISTICS Characteristics Symboi Max Unit Thermal Resistance, Junction to Case* Rec 41 "CW Thermal Resistance, Junction to Ambient Rasa 62.5 CW Lead Temperature for Soldering Purpose Th 260 C *Measurement made with thermocouple contacting the bottom insulated mounting surface {in a location beneath the die), the device mounted on a heatsink with thermal grease and a mounting torque of 2 6 in. Ibs. Full Pak is a trademark of Motorola inc. 3-1016MJF122, MJF127 ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) [ Characteristic Symbol [ Min Max Unit OFF CHARACTERISTICS Collector-Emitter Sustaining Voltage (1) VCEO(sus) 100 _ Vde (Ic = 100 mAdc, Ip = 0) Collector Cutoff Current IcEO _ 10 pAdc (VceE = 50 Vdc, Ip = 0) Collector Cutoff Current IcBO _ 10 BAdC (Vcg = 100 Vde, IE = 0) Emitter Cutoff Current (Vge = 5 Vde, I = 0) leEBO _ 2 mAdc ON CHARACTERISTICS (1) DC Current Gain (I = 0.5 Adc, Vcg = 3 Vdc) hrE 1000 _ _ (Ic = 3 Ade, Veg = 3 Vdc) 2000 _ Collector-Emitter Saturation Voltage (Ic = 3 Adc, Ip = 12 mAdc) VCE(sat) _ 2 Vdc {Ic = 5 Adc, Ip = 20 mAdc) _ 3.5 Base-Emitter On Voltage (Ic = 3 Adc, Vcg = 3 Vdc) VBE(on) _ 2.5 Vde DYNAMIC CHARACTERISTICS Small-Signal Current Gain (Ic = 3 Adc, Vee = 4 Vde, f = 1 MHz) Ibfel 4 _ _ Output Capacitance MJF127 Cob _ 300 pF (Vcg = 10 Vdc, le = 0, f = 0.1 MHz) MJF122 _ 200 {1) Pulse Test: Pulse Width < 300 ys, Duty Cycie < 2%. Rg & Rc VARIED TO OBTAIN DESIRED CURRENT LEVELS Vec 5 Dy, MUST BE FAST RECOVERY TYPES, e.g., 9 -30V 3 MBD5300 USED ABOVE Ig ~ 100 mA Rc 2 MSD6100 USED BELOW Ip = 100 mA Tut SCOPE approx ' ee @ 07 a +8V = 05 O---po = V4 | 03 APPROX. ~-- 0.2+-Vec = 30V Ic/ig = 250 12V }+ 25 ps 1 ice lo NP Ty = 25C NPN ty, tf < 10 ns oor 19 @ Vazvorh = 0 DUTY CYCLE = 1% FOR tg AND t,, Dy IS DISCONNECTED 0.05 AND Vp = 0 FOR NPN TEST CIRCUIT REVERSE ALL POLARITIES. Figure 1. Switching Times Test Circuit 3-1017 0.1 0.3 05 07 1 2 3 5 7 10 Ic, COLLECTOR CURRENT (AMP} 0.2 Figure 2. Typical Switching Timesr(t}, TRANSIENT THERMAL RESISTANCE {NORMALIZED} Ic, COLLECTOR CURRENT (AMPS} 05 0.3 0.2 0.05 0.03 0.02 0.01 MJF122, MJF127 Ta Tc 4 | 80 Pp, POWER DISSIPATION (WATTS) 0 40 100 120 140 160 T, TEMPERATURE (C} Figure 3. Maximum Power Derating SINGLE PULSE Rasci) ~ rit) Rac Tytpk) - To = Pipk) Reuctth 01 02 03 O85 SECONDARY BREAKDOWN UMIT ~-- THERMAL LIMIT @ 2 3 5 10 2 30 50 100 200 300 500 1K 2K 23K 5K 10K 1, TIME {msec} Figure 4. Thermal Response There are two limitations on the power handling ability of a transistor: average junction temperature and second breakdown. Safe operating area curves indicate Ic Vc_ limits of the transistor that must be observed for reliable operation; i.e., the transistor must not be sub- jected to greater dissipation than the curves indicate. The data of Figure 5 is based on Ty(pk) = 150C; Tc is variable depending on conditions. Secondary break- down pulse limits are valid for duty cycles to 10% provided Tj{pk) < 150C. Tiipk) may be calculated from the data in Figure 4. At high case temperatures, thermal Tc = 25C (SINGLE PULSE) limitations will reduce the power that can be handled 3 5 10 20. 30 Vee, COLLECTOR-EMITTER VOLTAGE (VOLTS) to values less than the limitations imposed by secondary 50 100 breakdown. Figure 5. Maximum Forward Bias Safe Operating Area 3-1018MJF122, MJF127 10,000 5000 3 ie z = i 1000 = ec Qo 3 500 Tc = 25C = = 200 S & 200 Voce = 4 Vde = a = 3 Adc 3S Zz 100 So a 90 = 30 20 10 1 2 5 10 20 50100 =-200 500 1000 01 02 05 1 2 5 10 2 50 100 f, FREQUENCY {kHz} Vp, REVERSE VOLTAGE (VOLTS) Figure 6. Typical Small-Signal Current Gain Figure 7. Typical Capacitance NPN PNP MJF122 MJF127 20,000 20,000 10,000 40,000 z z 7000 % 5000 S 5000 be KE @ 3000 Z 3000 ac ac S 2000 S 2000 oO oOo 8 8 i 1000 a 1000 = 700 500 500 300 300 200 200 0. 05 07 1 01 02 03 #05 07 1 2 3 5 7 10 Ie, COLLECTOR CURRENT (AMP) Ic, COLLECTOR CURRENT {AMP} Figure 8. Typical DC Current Gain Vee, COLLECTOR-EMITTER VOLTAGE (VOLTS) 05 07 1 2 3 5 Ip, BASE CURRENT (mA) 7 10 20 30 Figure 9. Typical Collector 3-1019 Veg, COLLECTOR-EMITTER VOLTAGE (VOLTS) 1 03 05 07 1 2 3 5 7 Ip, BASE CURRENT (mA) 10 20 30 Saturation RegionMJF122, MJF127 NPN MJF122 Ty = 25C Vee (sat) & Icig = 250 V, VOLTAGE (VOLTS} @ Vee = 4V Veetsat) @ iglg = 250 Od 02 03 05 07 1 7 3. 5 7 10 ic, COLLECTOR CURRENT (AMP) PNP MJF127 3 25 #2 5 3 2 3 = 15 Vpe @ Veg = 4 Oo = > 1 Voe{sat) @ 08 Vceisat) = Gt 02 03 05 07 1 2 3 5 7 610 ic, COLLECTOR CURRENT (AMP) Figure 10. Typical On Voltages +5 +4 *Icllg = hFES +3 +2 +4 0 *Ovc FOR Veejsat) ~3 -4 - vp FOR Vee O41 02 03 05 07 1 2 3 5 7 10 Ic, COLLECTOR CURRENT (AMP) Oy, TEMPERATURE COEFFICIENT (mViC) *Ovc FOR VcE(sat| FOR Vge dy, TEMPERATURE COEFFICIENTS (mvV:C) to 26C 0.4 02 03 05 1 2 3 5 7 10 Ic, COLLECTOR CURRENT (AMP) Figure 11. Typical Temperature Coefficients 108 104 Vee = 30V 103 cl 102 Ty = iol Ie, COLLECTOR CURRENT ()2A) 100 0-1 25C -06 -04 -02 0 +02 +04 +06 +08 +1 +12 +14 Vpe. BASE EMITTER VOLTAGE (VOLTS) 3 S. ee a =e. oe 2 Ie, COLLECTOR CURRENT (2A) 3 a > 10-1 +06 +04 +02 @ -02 -04 -06 -08 -1 -12 -14 Vpe, BASE-EMITTER VOLTAGE (VOLTS) Figure 12. Typical Collector Cut-Off Region 3-1020NPN MJF122 COLLECTOR MJF122, MJF127 PNP MJF127 COLLECTOR G oPL i EMITTER EMITTER Figure 13. Darlington Schematic OUTLINE DIMENSIONS waNe oF STYLE 1 PIN 1. BASE 2. COLLECTOR 3. EMITTER NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI L Y14.5M, 1982. | 2. CONTROLLING DIMENSION: INCH. 3. LEAD DIMENSION UNCONTROLLED WITHIN DIMENSION 2. J | R CASE 221C-02 O (4025001) Ble @ Ly) TO-220 TYPE 3-1021