SMCJ30A

SMCJ5.0(C)A -SMCJ440(C)A Product specification SMCJ5.0(C)A -SMCJ440(C)A Features MECHANICAL DATA 0  15 0 0 W peak pulse power capability at 10 /  Case: SMC  Terminals: Solderable per MIL- STD-7 5 0 , Method 10 0 0 μ s waveform  For surface mounted applications to optimize board space 20 2 6  Approx. Weight : 0 .22g (0 .0077oz)  Glass passivated chip junction  Halogen free and RoHS compliant Reference News PACKAGE OUTLINE PIN CONFIGURATION SMC(DO-214AB) Unipolar SMC(DO-214AB) Bipolar Peak Pulse Power Dissipation on 10/ 1000 us waveform PPPM 1500 W Peak Forward Surge Current ,8 .3ms Single Half Sine-Wave Superimposed on Rated Load (JEDEC Method) ( UNI) IFSM 200 A Power dissipation on Infinite heat sink at TA =50 ℃ PD 6 .5 W Maximum instantaneous forward voltage at 100 A for unidirectional only VF 3 .5 V Peak Pulse Current on 10/ 1000 us waveform I PPM See Next Table A Typical Thermal Resistance Junction to Ambient(Note 1 ) R θJA R θJL Operating Junction Temperature and Storage Temperature Range Tj , Tstg NOTES: 1. Mounted on 8 mm2 (0 . 13mm Copyright© Msksemi Incorporated 75 15 ℃/W -55 ~ +150 ℃ thick) land areas . www.msksemi.com SMCJ5.0(C)A -SMCJ440(C)A Characteristics at Ta = 25℃ SMCJ5 .0CA GDE BDE 5 6 .4 7 10 9 .2 163 800 SMCJ6 .0A SMCJ6 .0CA GDG BDG 6 6 .67 7 .37 10 10 .3 145 .7 800 SMCJ6 .5A SMCJ6 .5CA GDK BDK 6 .5 7 .22 7 .98 10 11 .2 134 500 SMCJ7 .0A SMCJ7 .0CA GDM BDM 7 7 .78 8 .6 10 12 125 200 SMCJ7 .5A SMCJ7 .5CA GDP BDP 7 .5 8 .33 9 .21 1 12 .9 116 .3 100 SMCJ8 .0A SMCJ8 .0CA GDR BDR 8 8 .89 9 .83 1 13 .6 110 .3 50 SMCJ8 .5A SMCJ8 .5CA GDT BDT 8 .5 9 .44 10 .4 1 14 .4 104 .2 20 SMCJ9 .0A SMCJ9 .0CA GDV BDV 9 10 11 . 1 1 15 .4 97 .4 10 SMCJ1 0 A SMCJ10CA GDX BDX 10 11 . 1 12 .3 1 17 88 .3 5 SMCJ11CA GDZ BDZ 11 12 .2 13 .5 1 18 .2 82 .5 1 SMCJ1 2 A SMCJ12CA GEE BEE 12 13 .3 14 .7 1 19 .9 75 .4 1 SMCJ1 3 A SMCJ13CA GEG BEG 13 14 .4 15 .9 1 21 .5 69 .8 1 SMCJ1 4 A SMCJ14CA GEK BEK 14 15 .6 17 .2 1 23 .2 64 .7 1 SMCJ1 5 A SMCJ15CA GEM BEM 15 16 .7 18 .5 1 24 .4 61 .5 1 SMCJ1 6 A SMCJ16CA GEP BEP 16 17 .8 19 .7 1 26 57 .7 1 SMCJ1 7 A SMCJ17CA GER BER 17 18 .9 20 .9 1 27 .6 54 .4 1 SMCJ1 8 A SMCJ18CA GET BET 18 20 22 . 1 1 29 .2 51 .4 1 SMCJ2 0 A SMCJ20CA GEV BEV 20 22 .2 24 .5 1 32 .4 46 .3 1 SMCJ2 2 A SMCJ22CA GEX BEX 22 24 .4 26 .9 1 35 .5 42 .3 1 SMCJ2 4 A SMCJ24CA GEZ BEZ 24 26 .7 29 .5 1 38 .9 38 .6 1 SMCJ2 6 A SMCJ26CA GFE BFE 26 28 .9 31 .9 1 42 . 1 35 .7 1 SMCJ2 8 A SMCJ28CA GFG BFG 28 31 . 1 34 .4 1 45 .4 33 . 1 1 SMCJ3 0 A SMCJ30CA GFK BFK 30 33 .3 36 .8 1 48 .4 31 1 SMCJ3 3 A SMCJ33CA GFM BFM 33 36 .7 40 .6 1 53 .3 28 .2 1 SMCJ3 6 A SMCJ36CA GFP BFP 36 40 44 .2 1 58 . 1 25 .9 1 SMCJ4 0 A SMCJ40CA GFR BFR 40 44 .4 49 . 1 1 64 .5 23 .3 1 SMCJ4 3 A SMCJ43CA GFT BFT 43 47 .8 52 .8 1 69 .4 21 .7 1 SMCJ4 5 A SMCJ45CA GFV BFV 45 50 55 .3 1 72 .7 20 .6 1 SMCJ4 8 A SMCJ48CA GFX BFX 48 53 .3 58 .9 1 77 .4 19 .4 1 SMCJ5 1 A SMCJ51CA GFZ BFZ 51 56 .7 62 .7 1 82 .4 18 .2 1 SMCJ5 4 A SMCJ54CA GGE BGE 54 60 66 .3 1 87 . 1 17 .3 1 SMCJ5 8 A SMCJ58CA GGG BGG 58 64 .4 71 .2 1 93 .6 16 . 1 1 SMCJ6 0 A SMCJ60CA GGK BGK 60 66 .7 73 .7 1 96 .8 15 .5 1 SMCJ6 4 A SMCJ64CA GGM BGM 64 71 . 1 78 .6 1 103 14 .6 1 SMCJ7 0 A SMCJ70CA GGP BGP 70 77 .8 86 1 113 13 .3 1 SMCJ7 5 A SMCJ75CA GGR BGR 75 83 .3 92 . 1 1 121 12 .4 1 SMCJ7 8 A SMCJ78CA GGT BGT 78 86 .7 95 .8 1 126 11 .9 1 SMCJ8 5 A SMCJ85CA GGV BGV 85 94 .4 104 1 137 11 1 BGX SMCJ5 .0A SMCJ1 1 A SMCJ9 0 A SMCJ90CA GGX 90 100 111 1 146 10 .3 1 SMCJ1 0 0 A SMCJ100CA GGZ BGZ 100 111 123 1 162 9 .3 1 SMCJ11 0 A SMCJ110CA GHE BHE 110 122 135 1 177 8 .5 1 SMCJ1 2 0 A SMCJ120CA GHG BHG 120 133 147 1 193 7 .8 1 SMCJ1 3 0 A SMCJ130CA GHK BHK 130 144 159 1 209 7 .2 1 SMCJ1 5 0 A SMCJ150CA GHM BHM 150 167 185 1 243 6 .2 1 SMCJ1 6 0 A SMCJ160CA GHP BHP 160 178 197 1 259 5 .8 1 Copyright© Msksemi Incorporated www.msksemi.com SMCJ5.0(C)A -SMCJ440(C)A SMCJ1 7 0 A SMCJ170CA GHR BHR 170 189 209 1 275 5 .5 1 SMCJ1 8 0 A SMCJ180CA GHT BHT 180 201 222 1 292 5.1 1 SMCJ2 0 0 A SMCJ200CA GHV BHV 200 224 247 1 324 4 .6 1 SMCJ2 2 0 A SMCJ220CA GHX BHX 220 246 272 1 356 4 .2 1 SMCJ2 5 0 A SMCJ250CA GHZ BHZ 250 279 309 1 405 3 .7 1 SMCJ3 0 0 A SMCJ300CA GJE BJE 300 335 371 1 486 3.1 1 SMCJ3 5 0 A SMCJ350CA GJG BJG 350 391 432 1 567 2 .6 1 SMCJ4 0 0 A SMCJ400CA GJK BJK 400 447 494 1 648 2 .3 1 SMCJ4 4 0 A SMCJ440CA GJM BJM 440 492 543 1 713 2.1 1 Copyright© Msksemi Incorporated www.msksemi.com SMCJ5.0(C)A -SMCJ440(C)A Fig.2 Pulse Waveform P PPM,PEAK PULSE FORWARD ,kW Fig.1 Peak Pulse Power Rating Curve 150 100 10 1 0.31x0.31" (8 0 x 80m m) Copper pad A rea T A =25°C t f =10us I ppm ,Peak Pulse Current (%) Non-Repet iv e Pulse.Wavefo m Shown in F ig ure.3 T A=25°C Pulse W idth (td) is Defined as the Poi nt where the Peak. Current Decayst to 50% of Ipp Peak Value 100 80 Half Value-I pp /2 60 10/1000usec Waveform as Defined bye R.E.A. 40 20 td 0 00 0.1 1 10 100 1000 0 10000 3.0 2.0 1.0 t d,PULSE WIDTH ,us 4.0 T,TIME,ms Fig.3 Forward Current Derating Curve Fig.4 Typical Junction Capacitance 100000 Bi-directional V= 0V 100 10000 Cj (pF) PEAK PULSE POWER(P PP)OR CURRENT(I PP) DERATINGIN PERCENTAGE% I ppm 80 60 Uni-directional V=0V 1000 Uni-directional @ V R 100 40 Bi-directional @ V R Tj=25℃ 10 20 f = 1MHz Vsig=mVp-p 1 0 25 50 75 100 125 150 175 T A,AMBIENT TEMPERATURE,°C 1 10 100 1000 V BR - Reverse Breakdown Voltage (V) I FSM,PEAK FORWARD S URGE CURRENT, AMPERES Fig.5 Maximum Non-Repetitive Peak Forward Surge Current 240 200 160 120 80 40 T J=T Jmax 8.3ms Single Half Sinepwave JEDEC Method 0 1 10 100 Number of Cycles at 60Hz Copyright© Msksemi Incorporated www.msksemi.com SMCJ5.0(C)A -SMCJ440(C)A PACKAGE MECHANICAL DATA B Dimensions H F A C Ref. D G E K J L J Millimeters Min. Max. Min. Max. A 5.75 6.25 0.226 0.246 B 6.90 7.40 0.272 0.291 C 2.75 3.25 0.108 0.128 D 0.95 1.52 0.037 0.060 E 7.70 8.20 0.303 0.323 F 0.051 0.203 0.002 0.008 G 0.15 0.31 0.006 0.012 H 2.15 2.62 0.085 0.103 J 2.40 L 0.094 0.165 4.20 K DO-214AB (SMC) Inches 0.130 3.30 REELSPECIFICATION P/N PKG QTY SMCJ5.0(C)A -SMCJ440(C)A SMC 3000 Copyright© Msksemi Incorporated www.msksemi.com SMCJ5.0(C)A -SMCJ440(C)A Attention ■ Any and all MSKSEMI Semiconductor products described or contained herein do not handle applications that require extremely high levels of reliability, such as life-support have specifications that can systems, aircraft's control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. 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