3.0SMCJ7.0 thru 3.0SMCJ170CA Transient Voltage Suppressors Peak Pulse Power 3000W Stand-off Voltage 7V to 170V Features 3000 W peak pulse power capability with a 10/1000 s waveform Excellent clamping capability Fast response time Low incremental surge resistance Meets MSL level 1, per J-STD-020, LF maximum Solder dip 275C, 10s Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/EC DO-214AB(SMC) Applications For use in sensitive electronics protection against voltage transients induced by lightning or inductive load switching. Key applications include protection of I/O interfaces, industrial and LED lighting applications, DC power buses, and other vulnerable circuits used in consumer electronics. For bi-directional devices, use suffix C or CA (e.g.3.0SMCJ7.0CA). Electrical characteristics apply in both directions. Mechancial Data Case: DO-214AB (SMC) Molding compound meets UL 94 V-0 flammability rating Terminals: Matte tin plated leads, solderable perJ-STD-002 and JESD22-B102 Marking: Laser marking band denotes cathode end or device code; Unidirectional-Device Code and Cathode Band; Bidirectional-Device Code Only Absolute Maximum Ratings (TA=25C unless otherwise specified) Parameter Symbol Value Unit Peak pulse power dissipation with a 10/1000 s waveform (1) (Fig. 3) PPPM 3000 W IPPM See Next Table Peak forward surge current 8.3 ms single half sine-wave (2) IFSM 250 A Power dissipation on infinite heatsink at TL = 75 C (Fig. 6) Peak power pulse current with a 10/1000 s waveform (1) (Fig. 1) A PD 6.0 W Maximum instantaneous forward voltage at 100A (2) VF 3.5 V Typical Thermal Resistance junction to case RJC 49 C/W - 65 to + 175 C Operating junction and storage temperature range TJ, TSTG Notes: (1) Non-repetitive current pulse, per Fig. 3 and derated above TA = 25 C per Fig. 2 (2) Measured on 8.3 ms single half sine-wave, or equivalent square wave, duty cycle = 4 pulses per minute maximum 1/6 3.0SMCJ7.0 thru 3.0SMCJ170CA Transient Voltage Suppressors Peak Pulse Power 3000W Stand-off Voltage 7V to 170V Electrical Characteristics (TA=25C unless otherwise specified) For bi-directional devices, use suffix CA (e.g. 3.0SMCJ7.0CA). Electrical characteristics apply in both directions Marking Code Device Type UNI BI Stand-off Breakdown Voltage Test V(BR)(Volts)(1) Current Voltage at VWM(V) I T(mA) Min. Max. Maximum Reverse Maximum Maximum Leakage at VWM Peak Pulse Clamping IR(uA) Voltage at surge IPPM current UNI BI IPP (2)(A) M VC(Volts) 200 400 225.6 13.3 3.0SMCJ7.0 HDL IDL 7.78 9.36 10 7 3.0SMCJ7.0A HDM IDM 7.78 8.45 10 7 200 400 250 12 3.0SMCJ7.5 HDN IDN 8.33 10.17 1 7.5 100 200 209.8 14.3 3.0SMCJ7.5A HDP IDP 8.33 9.08 1 7.5 100 200 232.6 12.9 3.0SMCJ8.0 HDQ IDQ 8.89 10.8 1 8 50 100 220 13.7 3.0SMCJ8.0A HDR IDR 8.89 9.73 1 8 50 100 220.6 13.6 3.0SMCJ8.5 HDS IDS 9.44 11.42 1 8.5 25 50 188.8 15.9 3.0SMCJ8.5A HDT IDT 9.44 10.32 1 8.5 25 50 208.4 14.4 3.0SMCJ9.0 HDU IDU 10 12.1 1 9 10 20 177.4 16.9 3.0SMCJ9.0A HDV IDV 10 11 1 9 10 20 194.8 15.4 3.0SMCJ10 HDW IDW 11.1 13.6 1 10 5 5 159.6 18.8 3.0SMCJ10A HDX IDX 11.1 12.3 1 10 5 5 176.4 17 3.0SMCJ11 HDY IDY 12.2 14.9 1 11 5 5 149.2 20.1 3.0SMCJ11A HDZ IDZ 12.2 13.5 1 11 5 5 184.88 16.3 3.0SMCJ12 HED IED 13.3 16.4 1 12 5 5 136.4 22 3.0SMCJ12A HEE IEE 13.3 14.8 1 12 5 5 150.6 20 3.0SMCJ13 HEF IEF 14.4 17.7 1 13 5 5 126 24 3.0SMCJ13A HEG IEG 14.4 16 1 13 5 5 139.4 21.6 3.0SMCJ14 HEH IEH 15.6 19.3 1 14 5 5 116.2 25.9 3.0SMCJ14A HEK IEK 15.6 17.4 1 14 5 5 129.4 23.2 3.0SMCJ15 HEL IEL 16.7 20.6 1 15 5 5 111.6 26.9 3.0SMCJ15A HEM IEM 16.7 18.7 1 15 5 5 123 24.4 3.0SMCJ16 HEN IEN 17.8 22.1 1 16 5 5 104.2 28.8 3.0SMCJ16A HEP IEP 17.8 20 1 16 5 5 115.4 26 3.0SMCJ17 HEQ IEQ 18.9 23.4 1 17 5 5 98.4 30.5 3.0SMCJ17A HER IER 18.9 21.2 1 17 5 5 106.6 28.2 3.0SMCJ18 HES IES 20 24.8 1 18 5 5 93.2 32.2 3.0SMCJ18A HET IET 20 22.8 1 18 5 5 102.8 29.2 3.0SMCJ20 HEU IEU 22.2 27.6 1 20 5 5 83.8 35.8 3.0SMCJ20A HEV IEV 22.2 25 1 20 5 5 92.6 32.4 2/6 3.0SMCJ7.0 thru 3.0SMCJ170CA Transient Voltage Suppressors Peak Pulse Power 3000W Stand-off Voltage 7V to 170V Electrical Characteristics (TA=25C unless otherwise specified) Marking Code Device Type UNI BI Stand-off Test Breakdown Voltage Current Voltage V (BR)(Volts)(1) at VWM(V) IT(mA) Min. Max. Maximum Reverse Maximum Maximum Leakage at VWM Peak Pulse Clamping Voltage at IR(uA) surge IPPM current IPP (2)(A) M VC(Volts) UNI BI 3.0SMCJ22 HEW IEW 24.4 30.4 1 22 5 5 76.2 39.4 3.0SMCJ22A HEX IEX 24.4 27.5 1 22 5 5 84.4 35.7 3.0SMCJ24 HEY IEY 26.7 33.3 1 24 5 5 69.8 43 3.0SMCJ24A HEZ IEZ 26.7 30.2 1 24 5 5 77.2 38.9 3.0SMCJ26 HFD IFD 28.9 36.1 1 26 5 5 64.4 46.6 3.0SMCJ26A HFE IFE 28.9 32.7 1 26 5 5 71.2 42.3 3.0SMCJ28 HFF IFF 31.1 38.9 1 28 5 5 60 50 3.0SMCJ28A HFG IFG 31.1 35.3 1 28 5 5 66 45.6 3.0SMCJ30 HFH IFH 33.3 41.7 1 30 5 5 56 53.6 3.0SMCJ30A HFK IFK 33.3 37.8 1 30 5 5 62 48.4 3.0SMCJ33 HFL IFL 36.7 46 1 33 5 5 50.4 59.8 3.0SMCJ33A HFM IFM 36.7 41.7 1 33 5 5 56.2 53.7 3.0SMCJ36 HFN IFN 40 50.2 1 36 5 5 46.6 64.6 3.0SMCJ36A HFP IFP 40 45.5 1 36 5 5 51.6 58.2 3.0SMCJ40 HFQ IFQ 44.4 55.8 1 40 5 5 42 71.5 3.0SMCJ40A HFR IFR 44.4 50.6 1 40 5 5 46.4 64.7 3.0SMCJ43 HFS IFS 47.8 60 1 43 5 5 39.2 76.7 3.0SMCJ43A HFT IFT 47.8 54.4 1 43 5 5 43.2 69.5 3.0SMCJ45 HFU IFU 50 62.8 1 45 5 5 37.4 80.3 3.0SMCJ45A HFV IFV 50 57 1 45 5 5 41.2 72.9 3.0SMCJ48 HFW IFW 53.3 67 1 48 5 5 35 85.8 3.0SMCJ48A HFX IFX 53.3 60.8 1 48 5 5 38.8 77.4 3.0SMCJ51 HFY IFY 56.7 71.3 1 51 5 5 37 81.5 3.0SMCJ51A HFZ IFZ 56.7 64.7 1 51 5 5 36.4 82.5 3.0SMCJ54 HGD IGD 60 75.5 1 54 5 5 31.2 96.3 3.0SMCJ54A HGE IGE 60 68.5 1 54 5 5 34.4 87.5 3.0SMCJ58 HGF IGF 64.4 81.1 1 58 5 5 29.2 103 3.0SMCJ58A HGG IGG 64.4 73.6 1 58 5 5 32 94 3.0SMCJ60 HGH IGH 66.7 84 1 60 5 5 28 107.5 3.0SMCJ60A HGK IGK 66.7 76.2 1 60 5 5 31 97 3/6 3.0SMCJ7.0 thru 3.0SMCJ170CA Transient Voltage Suppressors Peak Pulse Power 3000W Stand-off Voltage 7V to 170V Electrical Characteristics (TA=25C unless otherwise specified) Marking Code Device Type Stand-off Test Breakdown Voltage Current Voltage V(BR)(Volts)(1) at VWM(V) IT(mA) Min. Max. Maximum Reverse Maximum Maximum Leakage at VWM Peak Pulse Clamping Voltage at IR(uA) surge IPPM current UNI BI IPP (2)(A) M VC(Volts) 5 5 26.4 114 UNI BI 3.0SMCJ64 HGL IGL 3.0SMCJ64A HGM IGM 71.1 81.3 1 64 5 5 29.2 103 3.0SMCJ70 HGN IGN 77.8 98.1 1 70 5 5 24 125 71.1 89.6 1 64 3.0SMCJ70A HGP IGP 77.8 89 1 70 5 5 26.8 112.1 3.0SMCJ75 HGQ IGQ 83.3 105.2 1 75 5 5 22.4 134 3.0SMCJ75A HGR IGR 83.3 95.3 1 75 5 5 24.8 121 3.0SMCJ78 HGS IGS 86.7 109.3 1 78 5 5 21.6 139 3.0SMCJ78A HGT IGT 86.7 99.2 1 78 5 5 22.8 132 3.0SMCJ85 HGU IGU 94.4 118.7 1 85 5 5 19.8 152 3.0SMCJ85A HGV IGV 94.4 107.7 1 85 5 5 20.8 145 3.0SMCJ90 HGW IGW 100 126 1 90 5 5 18.8 160 3.0SMCJ90A HGX IGX 100 115 1 90 5 5 20.6 146 3.0SMCJ100 HGY IGY 111 140.5 1 100 5 5 16.6 181 3.0SMCJ100A HGZ IGZ 111 127.5 1 100 5 5 18.6 162 3.0SMCJ110 HHD IHD 122 154 1 110 5 5 15.4 196 3.0SMCJ110A HHE IHE 122 140 1 110 5 5 16.8 179 3.0SMCJ120 HHF IHF 133 168.5 1 120 5 5 14 215 3.0SMCJ120A HHG IHG 133 152.5 1 120 5 5 15.6 193 3.0SMCJ130 HHH IHH 144 182 1 130 5 5 13 231 3.0SMCJ130A HHK IHK 144 165 1 130 5 5 14.4 209 3.0SMCJ150 HHL IHL 167 211 1 150 5 5 11.2 268 3.0SMCJ150A HHM IHM 167 192 1 150 5 5 12.4 243 3.0SMCJ160 HHN IHN 178 225.5 1 160 5 5 10.4 289 3.0SMCJ160A HHP IHP 178 204.5 1 160 5 5 11.6 259 3.0SMCJ170 HHQ IHQ 189 239 1 170 5 5 9.8 307 3.0SMCJ170A HHR IHR 189 217 1 170 5 5 11 273 Notes: .(1) Pulse test: tp 50 ms .(2) Surge current waveform per Fig. 3 and derated per Fig. 2 .(3) All terms and symbols are consistent with ANSI/IEEE C62.35 4/6 3.0SMCJ7.0 thru 3.0SMCJ170CA Transient Voltage Suppressors Peak Pulse Power 3000W Stand-off Voltage 7V to 170V Ratings and Characteristic Curves (TA = 25 C unless otherwise noted) FIGURE1PEAKPULSEPOWERVSPULSETIME FIGURE2PulsePowerorCurrentvs.InitialJunction Temperature FIGURE4 TYPICALCAPACITANCEVSSTANDOFFVOLTAGE FIGURE3PULSEWAVEFORM FIGURE 5 MAXIMUM NONREPETITEVE PEAK FORWARD SURGECURRENTUNIDIRECTIONAL 5/6 FIGURE6STEADYSTATEPOWERDERATINGCURVE 3.0SMCJ7.0 thru 3.0SMCJ170CA Transient Voltage Suppressors Peak Pulse Power 3000W Stand-off Voltage 7V to 170V Package Outline Dimensions DO-214AB(SMC) dimensions in inches (millimeters) Mounting Pad Layout www.goodarksemi.com 6/6 Doc.US3.0SMCJxxSD4.1