ALPHANUMERIC INDEX CROSS-REFERENCE (Continued) Motorola Motorola Motorola Motorola Industry Direct Similar Page Industry Direct Similar Page Part Number Replacement Replacernent Number Part Number Replacement Replacement Number BDT63A BOW41 3-328 BDW51C 2N5882 3-123 BDT63B BDw42 3-328 BDW52 2N3791 3-56 BDT63C BOW43 3-328 BOW52A 2N3792 3-56 BOT64 BDW44 3-328 BDW52B 2N3792 3-56 BDT64A BDW45 3-328 BDW52C 2N5880 3-123 BOT64B BDW46 3-328 BDW53 TIP120 3-1098 BDT64C BDW47 3-328 BDW53A TIP120 3-1098 BDT65 BOW40 3-328 BDW53B TIP121 3-1098 BDT65A Bow41 3-328 BDW53C BOX53C 3-338 BDT65B BDW42 3-328 BDWS53D BDX53D 3-338 BDT6SC BDW43 3-328 BDW54 TIP125 3-1098 BDT91 BD807 3-316 BDW54A TIP125 3-1098 BDT92 BD808 3-318 BOW54B TIP126 3-1098 BDT93 BD809 3-316 BDWS54C BDX54C 3-338 BDT94 BD810 3-318 BDW54D BDX54D 3-338 BDV64 BDV64 3-324 BDW55 BD135 3-268 BOVE4A BOVEdA 3-324 BDW56 BD136 3-260 BDV64B BDV64B 3-324 BDW57 BD137 3-258 BDV64C BDV64B 3-324 BDW58 BD138 3-260 BOV65 BDV65 3-324 BDW59 BD139 3-258 BOVE5A BDVE5A 3-324 BDW60 BD140 3-260 BDV65B BDV65B 3-324 BOW63 BDX53 3-338 BOV65C BOV65B 3-324 BDW63A BDX53A 3-338 BDV66C MJH11018 3-1034 BDW63B BDX53B 3-338 BDVE66C MJH11017 3-1034 BDW63C BDX53C 3-338 BDV6ED MJH11019 3-1034 BDW63D BDX53D 3-338 BDV67D MJH11020 3-1034 BDWw4 BDX54 3-338 BOV91 MJE3055T 3-904 BDW64A BDX54A 3-338 BDV92 TIP34B 3-1077 BDW64B BDX54B 3-338 BDV93 TIP34C 3-1077 BOW64C BOX54C 3-338 BDV94 TIP2955 3-1108 BDW73 BD895 3-320 BDV95 TIP33B 31077 BOW73A 8D897 3-320 BOV9E TIP33C 3-1077 BDW73B BD899 3-320 BDW21 2N3714 3-26 BDW73C BD901 3-320 BOW21A 2N3714 3-26 BDW73D BDX33D 3-334 BOW21B 2N3714 3-26 BOW?74 BD896 3.322 BDW21C 2N5882 3-123 BDW74A BD898 3-322 BDW22 2N3789 3-56 BDW74B BD900 3-322 BDW22A 2N3789 3-56 BDW74C BD902 3-322 BDW22B 2N3790 3-56 BDW74D BDX34D 3-334 BDW22C 2N5880 3-123 BDW83 BDV65 3-324 BDW23 BDX53 3-338 BDW83A BOVES 3-324 BDW23A BDX53A 3-338 BOW83B BDVE5A 3-324 BOW23B BDX53B 3-338 BDW83C BDV65B 3-324 BOW23C BDX53C 3-338 BDW84 BDVE4 3-324 BDW24 BDX54 3-338 BDW84A BDV64 3-324 BDW24A BDX54A 3-338 Bows4B BDV64A 3-324 BDW24B BDX54B 3-338 BDW84C BDV64B 3-324 BDW24C BDX54C 3-338 BDW93 BOW39 3-328 BDW39 BDW39 3-328 BDW93A BDW40 3-328 Bow40 BOWw40 3-328 BOWS3B BDW4} 3-328 BDW41 Bbwa41 3-328 BOW93C B8DW42 3-328 BDW42 BDW42 3-328 BDW94 BDW44 3-328 BDW44 BOW44 3-328 BDW94A BDW45 3-328 BDw4s BDW45 3-328 BDW94B BDW46 3-328 BDW46 BDW46 3-328 BDW94C BDw4?7 3-328 Bpw47 BOW47 3-328 BDX10 2N3055A 3-9 BOWS} 2N3715 3-26 BDX10-4 2N3055A 39 BDW51A 2N3715 3-26 BDX10-6 2N3055A 3-9 BDW51B 2N3716 3-26 BDX10-7 2N3055A 3-9 *Consult Motorola if a direct replacement is necessary. 1-25ALPHANUMERIC 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 BDX10C 2N3055A 3-9 BDY93 BU326A 3-363 BOX18 MJ2955, 36 BDY93/01 BU326A 3-363 BDX33 BDX33 3-334 BDY94 BU326A 3-363 BOX33A BDX33A 3-334 BDY94/01 BU326A 3-363 BDX33B BDX33B 3-334 BDY96 BUX47 3-499 BDX33C BDX33C 3-334 BDY96-1 BUX47 3-499 BDX33D BDX33D 3-334 BDY96/01 BUX47 3-499 BDX34 BDX34 3-334 BDY97 BUX47 3-499 BDX34A BDX34A 3-334 BDY97-1 BUX47 3-499 BDX34B BDX34B 3-334 BF380 MPS-U10 3-1052 BDX34C BDX34C 3-334 BF380-5 MPS-U10 3-1052 BDX34D BDX34D 3-334 BF381 MPS-U10 3-1052 BDX35 TIP42C 3-1083 BF382 MPS-U10 3-1052 BDX36 TIP42D 3-1083 BF382-5 MPS-U10 3-1052 BDX37 TIP42D 3-1083 BU104P BU406 3-366 BDX42 BD775 - BU105 MJ12003 3-642 BDX43 BD77? 3-302 BU108 BU208 3-343 BDX44 BD?779 3-302 BU109P BU407 3-366 BDX45 BD776 3-302 BU124 BU426 3-368 BDX46 BD778 3-302 BUI26 MJE13005 3-944 BDX47 BD779 3-302 BU126A MJE13005 3-944 BDX53 BDX53 3-338 BU134 MJ423 3-524 BDX53A, BDX53A 3-338 BU137 MJ16025 3-623 BDX53B BDX53B 3-338 Bu157 MJ10025 3-623 BDX53C BDX53C 3-338 BU180 MJE5741 3-914 BDX53D BDX53D 3-338 BU180A MJE5742 3-914 BDX54 BDX54 3-338 BU204 BU207 3-343 BDX54A BDX54A 3-338 BU205 BU208 3-343 BDX54B BDX54B 3-338 BU205A MJ12003 3-642 BDX54C BDX54C 3-338 BU207 BU207 3-343 BDX54D BDX54D 3-338 BU208 BU208 3-343 BDX70 2N6487 3-207 BU208A BU208A 3-348 BDX71 2N6487 3-207 BU208D BU208D 3-353 BDX72 2N6488 3-207 BU221 BU326A 3-363 BDX73 2N6488 3-207 BU222 BU326A 3-363 BDX74 2N6486 3-207 BU223 MJ431 3-524 BDX75 2N6486 3-207 BU223A, MJ431 3-524 BDX77 BD799 3-312 BU322 BU323 3-355 BDX78 BD800 3-314 BU322A BU323A 3-355 BDX83 MJ3000 3-530 BU323 BU323A 3-355 BOX83A MJ3000 3-530 BU323A BU323A 3-355 BDX83B MJ3001 3-530 BU323AP BU323AP 3-359 BOX83C 2N6284 3-172 BU323P BU323P 3-359 BDX84 MJ2500 3-530 BU326 BU326A 3-363 BDX84A MJ2500 3-530 BU326A BU326A 3-363 BDX84B MJ2501 3-530 BU406 BU406 3-366 BDX84C 2N6287 3-172 BU406D BU406D 3-366 BDX91 2N3715 3-26 BU407 BU407 3-366 BDX92 2N3791 3-56 BU407D BU407D 3-366 BDX93 2N3716 3-26 BU426 BU426 3-368 BDX94 2N3792 3-56 BU426A BU426A 3-368 BDX95 2N5882 3-123 BU433 BU426 3-368 BDX96 2N5880 3-123 BU500 MJ12005 3-650 BDY29 2N5303 3-93 Bus08 BUS08 3-372 BDY34 BO785 3-304 BUSOBA BUSO8A 3-372 BDY37 2N3773 3-52 BUS08AD BUS08AD 3-372 BDY80 2N6122 3-154 BU508D BU508D 3-372 BOY81 2N6122 3-154 BU522 BU522 3-377 BDY82 2N6125 3-154 BU522A BU522A 3-377 BDY83 2N6125 3-164 BUS22B BU522B 3-377 *Consult Motorola if a direct replacement is necessary. 1-26TABLE 5 - PLASTIC TO-220 (continued) Resistive Switching IcCont | VcEO{sus) Device T ts te fT Pp (Case) Amps Volts evice ype hee @li BS BS @lic MHz Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 7 45 BD795 BD796 25 min 3 3 65 50 2N6290 2N6109 30/150 2.5 0.4 typ | 0.15 typ 3 4 40 60 BD797 BD798 25 min 3 3 65 70 2N6292 2N6107 30/150 3 0.4 typ | 0.15 typ 3 4 40 80 BD799 BD800 15 min 3 3 65 100 BD801 BD802 15 min 3 3 65 150 BU407,D 30 min 1.5 0.75 5 10 60 200 BU406,D 30 min 1.5 0.75 5 10 60 375 BU522## 250 min 2.5 75 75 425 BU5S22A## 250 min 25 7.5 75 450 BU522B4# 250 min 25 75 75 8 40 2NG6386#4 1k/20k 3 20# 65 45 BDX53## BDX54## 750 min 3 4# 60 BDSs954#4 BDSS6## 750 min 3 1# 70 BD895A## BDSI6A## 750 min 4 1# 70 60 2N60434## 2N60404# 1k/10k 4 1.5 typ | 1.5 typ 3 4 75 BDXS3A## BDX54A## 750 min 3 At 60 BD897## BoSI8## 750 min 3 l# 70 BD8S7A## BoSIsA##+ 750 min 4 1# 70 TIP1O0## TIP1O5## 1k/20k 3 1.5 typ | 1.5 typ 3 4# 80 80 2N60444# 2N60414# 1k/10k 4 1.5 typ | 1.5 typ 3 4# 75 BDX53B## BDX54B## 750 min 3 4# 60 BDsss## BD9004# 750 min 3 1# 70 BDSS9A#4 BD90D0A## 750 min 4 V# 70 TIP101## TIP10644# 1k/20k 3 1.5 typ | 1.5 typ 3 4# 80 100 2N6045## 2N6042## 1k/10k 3 1.5 typ | 1.5 typ 3 4# 75 BDX53C## BDX54C## 750 min 3 4# 60 BD90T## BD902## 750 min 3 V# 70 TIP102## TIP107## 1k/20k 3 1.5 typ | 1.5 typ 3 4# 80 120 BDX53D## BDX54D## 750 min 3 4# 60 MJE15028 MJE15029 20 min 4 30 50 150 MJE15030 MJE15031 20 min 4 30 50 BU807#4 100 min 5 0.55 typ | 0.2 typ 5 60 200 BUSO6## 100 min 5 0.55 typ | 0.2 typ 5 60 300 MJE13006 5/30 5 3 0.7 5 4 80 MJE5740## 200 min 4 8 typ 2 typ 6 80 MJE5850 15 min 2 2 0.5 4 80 350 MJE5741## 200 min 4 8 typ 2 typ 6 80 MJE5851 15 min 2 2 0.5 4 80 400 MJE57424## 200 min 4 8 typ 2 typ 6 80 MJE13007 5/30 5 3 0.7 5 4 80 MJE5852 15 min 2 2 0.5 4 80 MJE16080 5 min 8 2 0.5 5 80 MJE16106 6/25 8 2 typ 0.1 typ 5 100 450 MJE16081 5 min 8 2 0.5 5 80 10 30 D45111 20 min 4 50 bD4slH2 40 min 4 50 40 D44E1## 1000 min 5 2 typ 0.5 typ 10 50 45 BDX33## BDX34## 750 min 4 3 70 BD805 BD806 15 min 4 1.5 90 D454 20 min 4 50 D44H5 D455 40 min 4 50 60 BDX33A## BDX34A## 750 min 4 3 70 BD807 BD803 15 min 4 15 90 # |hfel @ 1 MHz, ## Darlington (continued) 2-13TABLE 12 POWER DARLINGTONS (continued) Resistive Switching IcCont | VcEO(sus} . ts tt |hfel @ | Pp (Case) Amps Volts Device Type hrE @ic us BS @lc | 1MHz! Watts Case Max Min NPN PNP Min/Max | Amp Max Max | Amp ; Min @ 25C JEDEC/MOT 8 80 MJ1001 MJ901 1k min 3 90 TO-204/1 TIP101 TIP106 1k/20k 3 1.5 typ }1.5 typ 3 4 80 TO-220/221A 2N6044 2N6041 1k/10k 4 1.5 typ | 1.5 typ 3 4 75 TO-220/221A 2N6301 2N6299 750k/18k 4 1.6 typ | 1.5 typ 4 4 75 TO-213A/80 2N6056 2N6054 750k/18k 4 1.5 typ | 1.5 typ 4 4 100 TO-204A/1 MJE6044 MJE6041 1k/20k 4 1.5 typ |1.5 typ 4 2 75 TO-225AB/90 100 BDX53C BDX54C 750 min 3 4 60 TO-220/221A BD901 BD902 750 min 3 1 70 TO-220/221A MJE6045 1k/20k 4 1.5 typ |1.5 typ 4 2 75 TO-225AB/90 MJD122 MJD127 1k/12k 4 1.5 typ | 2 typ 4 4 20 TO-252/369A-04 MJF102 MJF107 3k min 3 1.5 typ | 1.5 typ 3 4 35 /221C-02 TIP102 TIP107 1k/20k 3 1.5 typ [1.5 typ 3 4 80 TO-220/221A 2N6045 2N6042 1k/10k 4 1.5 typ |1.5 typ 3 4 75 TO-220/221A 120 BDX53D BDX54D 750 min 3 4 60 TO-220/221A 150 BU807e 100 min 5 0.55 typ | 0.2 typ 5 60 TO-220/221A 200 BU806e 100 min 5 0.55 typ | 0.2 typ 5 60 TO-220/221A 300 MJE5740 200/400 4 8typ | 2typ 6 80 TO-220/221A 350 MJE5741 200/400 4 8typ | 2 typ 6 80 TO-220/221A 400 MJE5742 200/400 4 8 typ 2 typ 6 80 TO-220/221A 500 BUT50Pe 30 min 2 0.75 typ | 0.1 typ 5 100 TO-218/340D 1400* MJ10011 20 min 4 1 4 80 TO-204/1 10 40 2N6383 2N6648 1k/20k 5 20 100 TO-204/1 D44E1 1000 min 5 2typ |O0.5typ| 10 50 TO-220/221A 45 BDX33 BDX34 750 min 4 3 70 TO-220/221A 60 BDV65 BDV64 1k min 5 125 TO-218/340D BDX33A BDX34A 750 min 4 3 70 TO-220/221A MJ3000 MJ2500 1k min 5 150 TO-204/1 2N6387 2N6667 1k/20k 5 20 65 TO-220/221A4 2N6384 1k/20k 5 20 100 TO-204/1 D44E2 1000 min 5 2typ |O5typ| 10 50 TO-220/221A TIP140 TIP145 500 min 10 2.5 typ | 2.5 typ 5 4 125 TO-218/340 80 2N6388 2N6668 1k/20k 5 20 65 TO-220/221A 2N6385 1k/20k 5 20 100 TO-204/1 BDV65A BDV64A 1k min 5 125 TO-218/340D BDX33B BDX34B 750 min 3 3 70 TO-220/221A D44E3 1000 min 5 2typ jO.5typ! 10 50 TO-220/221A MJD44E3 1k min 5 2typ {0.5typ| 10 20 TO-252/369A-04 TIP141 TIP146 500 min 10 2.5 typ (2.5 typ 5 4 125 TO-218/340 100 BDV65B BDV64B tk min 5 125 TO-218/340D BDX33C BDX34C 750 min 3 3 70 TO-220/221A TIP142 TIP147 500 min 10 2.5 typ | 2.5 typ 5 4 125 TO-218/340 120 BDV65C BDV64C 1k min 5 125 TO-218/340D BDX33D BDX34D 750 min 3 3 70 TO-220/221A 200 BU323P 150 min 6 15 15 6 125 TO-218/340D 250 BU323AP 150 min 6 15 15 6 125 TO-218/340D 350 BU323 150 min 6 7.5 typ |5.2 typ 6 175 TO-204/1 MJ10002 30/300 5 2.5 1 5 10 150 TO-204/1 MJ100060 30/300 5 1.5 0.5 5 10 150 TO-204/1 400 BU323A 150 min 6 7.5 typ [5.2 typ 6 175 TO-204/1 MJH10012 100/2k 6 15 15 6 118 TO-218/340 MJ10007 30/300 5 1.5 0.5 5 10 150 TO-204/1 Darlington with speed-up diode. (continued) 2-22MOTOROLA @ SEMICONDUCTOR oy TECHNICAL DATA PNP BDX54 BDX54A BDX54B BDX54C NPN BDX53 BDX53A BDX53B BDX53C applications. @ High DC Current Gain VCEOIsus} Shunt Resistors @ T0-220AB Compact Package PLASTIC MEDIUM-POWER COMPLEMENTARY SILICON TRANSISTORS designed for general-purpose amplifier and low-speed switching hee = 2500 (Typ) @ I = 4.0 Ade Colector- Emitter Sustaining Voltage - @ 100 mAdc = 45 Vde (Min) BDX53, 54 = 60 Vdc (Min) BDX53A, 54A -= 80 Vde (Min) BDX53B, 54B = 100 Vde (Min) BDX53C, 54C @ Low Collector Emitter Saturation Voltage - VCE (sat) = 2.0 Vde (Max) @ Ic = 3.0 Adc = 4.0 Vde (Max} @ te = 5.0 Adc @ Monolithic Construction with Built-In Bare Emitter DARLINGTON 8 AMPERE COMPLEMENTARY SILICON POWER TRANSISTORS 60-80-100 VOLTS 65 WATTS MAXIMUM RATINGS FIGURE 1 POWER DERATING Ta Te 46 80 3.0 60 2.0 40 10 20--~ Py. POWER DISSIPATION (WATTS) 80 T, TEMPERATURE (90) BDX53 | BOXS53A | BOX53B | BDX53C Rating Symbol | BDX54 | BIDX54A | BDX54B | BDX54C Unit Collector-Emitter Voltage VcEO 45 60 80 100 Vdc Collector Base Voltage Vop 45 60 80 100 Vde Emitter Base Voltage Veg j= (50 Vdc aw Ade Bohe F yc Collector Current Continuous lc _ 8 Ic 7] La TH + s Peak >_ 12 ___ i i Base Current lg _ 02 -- Adc a A - Totat Device Dissipation Pb Watts { t 123 | u-! @Te 25C 80 i t Derate above 25C __ 04 w/c } K Operating and Storage Junction] Ty,T.1g | -_ - 68 to. #150, C z 4 Temperature Range tf a THERMAL CHARACTERISTICS v-y 4 Characteristics Symboi Max Unit s Tt D Thermal Resistance, Junction to Case Reic 2.08 oc/w | N ; 7, oO NOTES. Thermai Resistance, Junction to Ambient Resa 0 Cciw Tr MENSIONING AND TOLERANCING PER ANS! Y14.5M, 1982 2. CONTROLLING DIMENSION: INCH 3, DIM 2 DEFINES A ZONE WHERE ALL BODY AND LEAD IRREGULARITIES ARE ALLOWED. STYLE 1 PIN 1. BASE 2 COLLECTOR 3, EMITTER 4, COLLECTOR CASE 2214-04 TO-220AB 3-338ELECTRICAL CHARACTERISTICS BDX53, 53A, 53B, 53C NPN BDX54, 54A, 54B, 54C PNP (Te = 25C unless otherwise noted) [ Characteristic ] Symboi I Min | Max | Unit | OFF CHARACTERISTICS Collector-Emitter Sustaining Voitage (1) BOX53, BDX54 VcEOlsus) 45 Vde (ic = 100 mAdc, Ig = 0) BOXS53A, BDX54A 60 - BDX53B, BOX54B 80 - BOXS53C, BDX54C 100 _ Collector Cutoff Current IcEO 0.5 mAdc (VCE = 22 Vdc, IB = 0) BOX53, BDXS4 _ os (VCE = 90 Vdc, IB = 0) BDX53A, BDX54A 5 (VCE = 40 Vdc, IB = 0} BDX59B, BDX54B - 0. (VCE = 80 Vdc, iB = 0) BOX5S3C, BDX54C - os Collector Cutoff Current IcBoO 0.2 mAdc (VCB = 45 Vdc, IE = 0) BDX53, BDX54 - a2 (VCB = 60 Vac, IE = 0) BDX53A, BDX54A a2 (VOB = 80 Vdc, IE = 0) BOXS538, BOXS4B ~ . (VCB = 100 Vdc, IE = 0} BOX53C, BDX54C - 0.2 Emitter Cutoff Current lEBO - 2.0 mAdc Vege = 5.0 Vdc, Ic = 0} ON CHARACTERISTICS (1) DC Current Gain hee - 750 = (Ic = 3.0 Ade, Veg = 3.0 Vac) ~ Collector-Emitter Saturation Voltage VEE (sat) Vde (lc = 3.0 Ade, Ip = 12 mAdc) = 2.0 - 4.0 Base-Emitter Saturation Voltage Vee en Vde (Ic = 3.0 Adc, Ic = 12 mA) - 25 DYNAMIC CHARACTERISTICS Smail-Signal Current Gain ihei (1g 3.0 Ade. Veg = 4.0 Vde, f - 1.0 MHz) 40 - ~ Output Capacitance Cob pF (Vcg = 10 Vde, lg - 0, f= 0.1 Metz) BDXS53, 583A, 53B, 530 - 300 BOXS4, 54A, 54B, 540 - 200 (1) Pulse Test: Pulse Width 300 us, Duty Cycle < 2%. FIGURE 2 SWITCHING TIMES TEST CIRCUIT FIGURE 3 SWITCHING TIMES 50 Rg & Ac VARIED TO CBTAIN DESIRED CURRENT LEVELS Dy MUST BE FAST RECOVERY TYPES eg 805300 USEO ABOVE Ig = 100 mA MSO6100 USED BEL GW 1g < 100 mA 30 20 1 v2 fa 7 3 07 aov coe r | - { ro = 95 st o; a myo ~---L- 4) Bue 03 = aoe Q2F- Voc: 30V M1 approx aay icitg = 250 wy Mus for tg and 1, D1 1s desconnected 01 Bet td @ Vaetott) =O ano ? 8 bots Was For NPN test cucurt reversal! polaritees 0.07 | rrr PNP DUTY CYCLE 10% ool NPN 01 92 83 05 07 16 20 30 56 70 10 Ic, COLLECTOR CURRENT (AMP) 3-3391 - 0 a w 0. ea < Zs 0. ne zo 0 qe eo 593 2% 0 SSo0 wn < #00 wo Es oo = = 00 = oa 2 BDX53, 53A, 53B, 53C NPN BDX54, 54A, 54B, 54C PNP FIGURE 4 THERMAL RESPONSE 0 7 5 3 1 001 G02 003 0.05 at 02 03 1) 40 2.0 30 Algae (1) = Rage Raye = 1.92CW D CURVES APPLY FOR POWER PULSE TRAIN SHOWN READ TIME AT ty Tiipk) - Te = Pipa) Agacttt th ee Jeo 12 ~~~} DUTY CYCLE, O = ty/12 $0 10 2 (WO $0 100 200 300 6506 =1000 1, TIME OR PULSE WIDTH ims} FIGURE & ACTIVE-REGION SAFE OPERATING AREA f--~ -f-)- eee - et en ons 10 2. = af hd 500 , : Ee ES ah = OP- 0 mF ot os ai Ow = }- ~eY AN = 20 + NM Ea a . 8 Ty = 180C x BONDING WIRE LIMITEO x a4 S oem = THERMALLY LIMITED @ Te = 25C 44] a (SINGLE PULSE} mofo | 8 SECOND BREAKDOWN LIMITED N oO === CURVES APPLY BELOW RATED Vcgg = ee = BDX53, BDX54 = 4 005 f-~ BDX53A, BOXS4A ~~ 4 BOX53B, BOX54B c 002 BDX53C, BDXS4C 10 20 30 50 70 10 20 30 50 70 100 16,006 500 hte SMALL-SIGNAL CURRENT GAIN 1000 $00 300 200 Vee. COLLECTOR EMITTER VOLTAGE (VOLTS) FIGURE 6 SMALL-SIGNAL CURRENT GAIN 10 a 0 Tc = 25C VCE = 4.0 Vdc ( = 3.0 Ade PNP NPN 50 500 1006 1 FREQUENCY (kHz) 3-340 There are two limitations on the power handling ability of a average junction temperature and second breakdown Safe operating area curves indicate IC - VcE limits of the tran sistor that must be observed for reliable operation,.e., the transistor must not be subjected to greater dissipation than the cures indicate transistor The data of Figure 5 1s based on T jigx) 150C; Te is variable depending on conditions Second breakdown pulse trmits are valid for duty cycles to 10% provided Tyipk} < 150C Tj(pk) May be calculated from the data in Figure 4. At nigh case temperatures, thermal timitations will reduce the power that can be handled to values less than the limitations imposed by second breakdown {see AN-415A). FIGURE 7 CAPACITANCE 300 200 C. CAPACITANCE (pF) 50 PNP NPN to 0 30 ol 0? os 20 VR. REVERSE VOLTAGE (VOLTS)20,000 10,000 hee, OC CURRENT GAIN Vee. COLLECTOR EMITTEN VOLTAGE (VOLTS) V. VOLTAGE (VOLTS) $000 3000 2000 500 300 200 a3 30 25 20 os a7 15; VBE (sat) 10 as 01 B3DX53, 53A, 53B, 53C NPN B3DX54, 54A, 54B, 54C PNP NPN BDXS53, BDXS3A, BDX53B, BDX53C 02 03 Vce=40V 0S O07 +10 20 3.0 tc, COLLECTOR CURRENT (AMP} 5.0 7.0 10 PNP BDX54, BOX64A, BDX548, BDX54C FIGURE 8 OC CURRENT GAIN 20,000 Vce=4.0V 10,000 7000 5000 Ty = 150C 25C beg. OC CURRENT GAIN 01 02 a3 G5 07 10 20 3.0 60 7.0 10 Ic, COLLECTOR CURRENT (AMP) FIGURE 9 COLLECTOR SATURATION REGION 10 2@ 30 50 70 1g. BASE CURRENT (ma) Ty = 259C tc/lg = 250 Vege @VcE-40V VCE (sat) ilg = 250 Q2 03 O05 07 10 2 Ic. COLLECTOR CURRENT (AMP) Ty = 259C 10 30 20 30 ww o . o Nn s o a Vce. COLLECTOR EMITTER VOLTAGE (VOLTS) of w 05 07 #19 20 30 56 70 10 20 30 1g, BASE CURRENT {mA} FIGURE 10 ON VOLTAGES 50 70 10 30 Ty + 25C 15> Vee @Vce=40V V, VOLTAGE (VOLTS) VBE tsat) @1c1g = 250 40 ; I | VCElsart @ Ieig + 250 oF 02 03 05 07 10 0 30 50 70 10 05 Ic, COLLECTOR CURRENT (AMP) 3-341Ie. COLLECTOR CURRENT (uA) uy, TEMPERATURE COEFFICIENT (mVC) BDX53, 53A, 53B, 53C NPN BDX54, 54A, 54B, 54C PNP NPN PNP BDX53, BDXS59A, BDXS9B, BDXS3C BDXS4, BDX54A, BDXS4B, BDX54C FIGURE 11 TEMPERATURE COEFFICIENTS +50 +50 +40 +40 "ic/iB SHE E/3 2 ic/lg < hEE/3 +30 = +30 5 120 25C 10 1509C 8 120 25C wo 160C +10 +10 -5C 10 25C -55C to 0 o 46 = 10 > -10 < -2.0 e -20 to 150C a to 150C -3.0 a -3.0 ye for Vee -55C tu 25C ~ ye for VBE - to 25C -4.0 2-40 -5.0 -$.0 Q1 o2 03 05 07 #10 20 39 50 70 10 01 02 03 05 07 10 26 3.0 50 70 W Ic, COLLECTOR CURRENT (AMP) tc, COLLECTOR CURRENT (AMP) FIGURE 12 COLLECTOR CUT-OFF REGION 10 1 : HE VERSE FORWARD 104 REVERSE FORWARD 18 _ : ft 3 193 2 103 Vee = 30V x = 3 192 = 10? = = = Ty] 3 ry, sgeCL 10! 2 19) oO WIC oS 190 a 0 257 to"! 10 : +1 OF Vge. BASE EMITTER VOLTAGE (VOLTS) VBE. BASE-EMITTER VOLTAGE (VOLTS) FIGURE 13 DARLINGTON SCHEMATIC NPN COLLECTOR PNP COLLECTOR BDX53 BOXS9A oc ---- BOxs3B. OS! BDxs3c_! BASE Pt Lie Lt eS ! EMITTER EMITTER 3-342