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. 1-35MOTOROLA = SEMICONDUCTOR ys TECHNICAL DATA PNP NPN MJE700,T MJESOO,T thru thru MJE703 MJE803 PLASTIC DARLINGTON COMPLEMENTARY SILICON POWER TRANSISTORS ... designed for general-purpose amplifier and low-speed switching applications. @ High OC Current Gain hFE = 2000 (Typ) @ Ic = 2.0 Adc @ Monolithic Construction with Built-in Base-Emitter Resistors to Limit Leakage Muliplication @ Choice of Packages MJE700 and MJE800 series TO220AB, MJE700T and MJE800T 4.0 AMPERE DARLINGTON POWER TRANSISTORS COMPLEMENTARY SILICON MAXIMUM RATINGS 40 WATT 50 WATT STYLE 1. PNY EMIT: 2 COLLECTOR 3 BASE ache M. i MJE700- 703 1 MJE800- 803 v walt G S [#[025 00101 #) [AB | Dan Fe jor im @ [a [eo } NOTES + LIMENSIONING AND TOLERANCING PER ANSI SM, 1982, 2 CONTROLLING DIMENSION: INCH CASE 77-06 TO-225AA TYPE MJE700,T| MJE702 MJE701 MJE703 MJE800,T| MJE802 Rating Symbol | MJE801 MJE803 Unit Collector-Emitter Voltage VcEO 60 80 Vde Collector-Base Voltage VcB 60 80 Vde Emitter-Base Voltage VeEB 5.0 Vde Collector Current Ie 4.0 Adc Base Current lg 0.1 Adc CASE 77 | TO-220 Total Power Dissipation @ Tg = 25C Po 40 50 Watts Derate above 25C 0.32 0.40 w/?c Operating and Storage Junction Ty, Tstqg ~55 to +150 % Temperature Range THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case Reic Sciw CASE 77 3.13 TO-220 2.50 FIGURE 1 POWER DERATING TO-220AB Pp, POWER DISSIPATION (WATTS) Te, CASE TEMPERATURE (C) ~ of FI J oe r vf at | Ne MJE700T em MJE800T Co mares 1 0570 | 0. STYLE 1: 3.66 11 \ PIN 1. BASE [ {er 1 2 couuecroR epee tag | nar 4 COWECTOR Lt. ae oss | 0.1 +280} 0 [ot Noms: 120 an 0 1. DIMENSIONING AND TOLERANCING PER ANSI [1s 1s: Y1ASM, 1982 [as | 4 10 2. CONTROLLING DIMENSION: INCH. Pa Pem TAR antes ln ge At 1 wo aE 3 i x LEAD (RREGULARITIES ARE ALLOWED. pfs C1, r | 7 HE tat CASE 2214-04 = = TO-220AB 3-888PNP MJE700,T thru MJE703 NPN MJE800,T thru MJE803 ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic I Symbol | Min | Max I Unit | OFF CHARACTERISTICS Collector-Emitter Breakdown Voltage (1) ViBRICEO Vde (Ic = 50 mAdc, Ig = 0) MJE700,T MJE701, MJE800,T MJE801 60 ~ MJE702, MJE703, MJE802, MJE803 80 - Collector Cutoff Current IcEO uAdc (VcE = 60 Vdc, tg = 0) MJE700,T MJE701, MJE800,T, MJE801 ~ 1c0 (VcE = 80 Vdc, Ig = 0} MJE702, MJE703, MJE802, MJE803 _ 100 Collector Cutoff Current IcBoO uAdc (Vog = Rated BVcEO, !E = 0) - 100 (Vcg = Rated BVCEO, IE = 0. Te = 100C) - 500 Emitter Cutoff Current lEBo - 20 mAdc (VpE = 5.0 Vdc, Ic = 0} ON CHARACTERISTICS DC Current Gain (1) hee ~ (Ig = 1.5 Adc, Veg = 3.0 Vdc) MJE700,T MJE702, MJE800,T MJE802 750 ~ (I = 2.0 Ade, Vcg = 3.0 Vdc) MJE701, MJE703, MJE801, MJE803 750 -- (Wc = 4.0 Ade, Veg = 3.0 Vac) All devices 100 - Collector-Emitter Saturation Voltage (1) VCE(sat) Vde (I = 1.5 Adc, Ig = 30 mAdc) MJE700,T MJE702, MJE800,T MJE802 ~ 25 (I = 2.0 Adc, tg = 40 mAdc) MJE701, MJE703, MJE801, MJE803 - 28 (Ic = 4.0 Adc, tg = 40 mAdc) All devices _ 3.0 Base-Emitter Qn Voltage (1) VBE{on) Vde (te = 1.5 Ade, Veg = 3.0 Vde) MJE700,T MJE702, MJE800,T MJE802 ~ 25 (Ic = 2.0 Adc, Veg = 3.0 Vdc) MJE701, MJE703, MJE801, MJE803 - 25 (Ig = 4.0 Adc, VcE = 3.0 Vde) All devices = 30 DYNAMIC CHARACTERISTICS Small-Signal Current Gain (Ic = 1.5 Ade, Voce = 3.0 Vde, f = 1.0 MHz) {1} Pulse Test: Pulse Width < 300 us, Duty Cycle < 2.0%. FIGURE 2 SWITCHING TIMES TEST CIRCUIT vec -30 Ra & Ac VARIED TO OBTAIN DESIRED CURRENT LEVELS g Dy, MUST BE FAST RECOVERY TYPES, e.g., A MBD5300 USED ABOVE Ig = 100 mA c score MSD6100 USED BELOW Iq = 100 mA tur an on I z iw on! | = = 5 THT) w 60K | = 150 | = wot = vi +40 t approx = 12V : 25 ys For ty and t,, Dy is disconnected and V2 = 0, Rg and Re are varied tr te< 10. ns DUTY CYCLE = 1.0% For NPN test circuit, reverse diode, polarities and input pulses. to obtain desired test currents. 02 0.04 [hfe | 10 | - FIGURE 3 SWITCHING TIMES td @ Veedate) = 0 PNP NPN 0.06 1.0 4 ic, COLLECTOR CURRENT (AMP) 0.1 FIGURE 4 THERMAL RESPONSE (MJE700T, 800T series) SINGLE 0.01 0.02 0.65 01 Ht), TRANSIENT THERMAL RESISTANCE (NORMALIZED) 02 Pipk) tS eo DUTY CYCLE, O = ty/t2 10 20 50 t, TIME (ms) 05 3-889 10 Zo sci) = 40 Rose Rouc = 2.50C/W Max O CURVES APPLY FOR POWER PULSE TRAIN SHOWN READ TIME AT ty TJipk) ~ TC = Pipk) Zosc(t) 2a 50 100 200 500 1.0kPNP MJE700,T thru MJE703 NPN MJE800,T thru MJE803 FIGURE 5 THERMAL RESPONSE (MJE700, 800 series) 10 407 Z 50 = 2 OW. theye go 03 "JC * 3.12C/W Max 2D 02 : aw D CURVES APPLY FOR POWER Eo PULSE TRAIN SHOWN #301 READ TIME AT ty me 2200 Tyipk) Te P(pk) uct) = 005 : gS , . ett = 003 4 SINGLE PULSE 19 5 tht DUTY CYCLE. OD tyA1g = 0.02 , +t gor oul ue 003 005 ua 02 03 05 lo 20 39 40 10 20 3050 100 200 300 500 4000 1. TEME ims) ACTIVE-REGION SAFE-OPERATING AREA FIGURE 6 MJE700 series FIGURE 7 MJE800 series 10 T war QoL pg get { 10 Tt TT =r -o4-4 Tc cs bot PI "J ~=I7 100 ys a Ta _ 70 fT. s | = 5.0 5.Oms4 1 t+ - az 50h + Ff Sad = = , <f =< - 2 5.0 ms" e 30 ~ 30 ~ & i doh 5 det a 20 | fete | i 20}- - hes, Ni 4. a 1 oc eb i ity : iho PS N = 10 Ty= 180 | Se 19 Ty + 150C . = [| ~ BONDING WIRE LiMIT S | {| - =~ BONDING WIRE LIMITED = So 07] ou THERMALLY LIMITED . 1 5 07] a = THERMALLY LIMITED + WEN Tt = 05 @ Te = 25C (SINGLE PULSE) } YS S05 @ Te = 25C (SINGLE PULSE) x 8 r SECOND BREAKDOWN LIMITED[- a SECOND BREAKDOWN LIMITED K 6 03 pk foe wf 93 ' \ a2 } - MJE702, 703 2 MJE802,803 t | MJE700,701-4 02 q ~ Mge800,8017 r oe ~-- = | 2p Pot fp + 0.1 L 01 50 7.0 10 20 30 50 70 100 5.0 7.0 10 20 30 50 70 100 Voce. COLLECTOR-EMITTER VOLTAGE (VOLTS) There are two limitations on the power handling ability of a transistor: average junction temperature and second break- down, Safe operating area curves indicate Ic Vcg limits of the transistor that must be observed for reliable operation; i.e., the transistor must not be subjected to greater dissipation than the curves indicate. FIGURE 8 MJE700T Ty = 180C ~ ome Bonding Wire Limited mm Thermally Limited @ 25C (Single Pulse) Breakdown Limited ~ bc, COLLECTOR CURRENT (AMP) 10 20 30 50 Vege. COLLECTOR EMITTER VOLTAGE (VOLTS) 70 100 Vee. COLLECTOR-EMITTER VOLTAGE (VOLTS) The data of Figures 6 and 7 are based on Ty (pk) = 150C; Tc is variable depending on conditions. Second breakdown pulse limits are valid for duty cycles to 10% provided T j(px) = 150C. Tj(pk) May be calculated from the data in Figure 4 or 5. At high case temperatures, thermal limitations will reduce the power that can be handled to values less than the limitations imposed by second breakdown. FIGURE 9 MJE800T Ty = 150C Bonding Wire Limited me me oe = Thermally Limited @ 25C (Single Pulse) neee Second Breakdown Limited Ic. COLLECTOR CURRENT (AMP) 5.0 7.0 10 20 30 50 70 100 Voce, COLLECTOR-EMITTER VOLTAGE (VOLTS) 3-8906.0k 4.0k 3.0k Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) hee, DC CURRENT GAIN V, VOLTAGE (VOLTS) 2.0k PNP MJE700,T thru MJE703 NPN MJE800,T thru MJE803 PNP MJE700,T series NPN MJE800,T series FIGURE 10 OC CURRENT GAIN VcE=3.0V Ty = 1259C hee, OC CURRENT GAIN Ot 0.2 a4 O06 1.0 Ic, COLLECTOR CURRENT (AMP) 60k 40k 3.0k 20k 10k 600 400 0.04 0.06 1 o4 1 Ic, COLLECTOR CURRENT (AMP) 2.0 40 FIGURE 11 COLLECTOR SATURATION REGION Ty = 259C Vce, COLLECTOR-EMITTER VOLTAGE (VGLTS} 05 10 20 50 0 20 Ig, BASE CURRENT (mA) 34 = 250 solic Ty = 25C O5A 26 0.2 05 1.0 2.0 5.0 0 Ip, BASE CURRENT (mA) 20 50 100 FIGURE 12 ON VOLTAGES Ty= B VeE(sat) @ Ic/ig = 250 BE @ VcE=3.0V = = a oO BE 5 Q @ Ic/lp = 250 > > 0. 0.2 04 O06 10 2.0 40 Ic, COLLECTOR CURRENT {AMP) 3-891 2.2 Ty = 25C 18 14 @ Ic/tg = 250 VBE @ =3.0V 1.0 @ Ic/tg = 250 0.6 02 0.04 0.06 01 02 a4 06 1.0 2.0 40 ic, COLLECTOR CURRENT (AMP)