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1.5KE150A Dataheets PDF



Part Number 1.5KE150A
Manufacturers STMicroelectronics
Logo STMicroelectronics
Description 1500W TVS
Datasheet 1.5KE150A Datasheet1.5KE150A Datasheet (PDF)

1.5KExxA, 1.5KExxCA Datasheet 1500 W TVS in DO-201 Product status link 1.5KE6V8A, 1.5KE6V8CA, 1.5KE12A, 1.5KE12CA, 1.5KE15A, 1.5KE15CA, 1.5KE18A, 1.5KE18CA, 1.5KE27A, 1.5KE27CA, 1.5KE30A, 1.5KE30CA, 1.5KE33A, 1.5KE33CA, 1.5KE36A, 1.5KE36CA, 1.5KE39A, 1.5KE39CA, 1.5KE47A, 1.5KE47CA, 1.5KE56A, 1.5KE56CA, 1.5KE62A, 1.5KE62CA, 1.5KE68A, 1.5KE68CA, 1.5KE82A, 1.5KE82CA, 1.5KE100A, 1.5KE100CA, 1.5KE120A, 1.5KE120CA, 1.5KE150A, 1.5KE150CA, 1.5KE180A, 1.5KE180CA, 1.5KE200A, 1.5KE200CA, 1.5KE220A, 1.5KE2.

  1.5KE150A   1.5KE150A


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1.5KExxA, 1.5KExxCA Datasheet 1500 W TVS in DO-201 Product status link 1.5KE6V8A, 1.5KE6V8CA, 1.5KE12A, 1.5KE12CA, 1.5KE15A, 1.5KE15CA, 1.5KE18A, 1.5KE18CA, 1.5KE27A, 1.5KE27CA, 1.5KE30A, 1.5KE30CA, 1.5KE33A, 1.5KE33CA, 1.5KE36A, 1.5KE36CA, 1.5KE39A, 1.5KE39CA, 1.5KE47A, 1.5KE47CA, 1.5KE56A, 1.5KE56CA, 1.5KE62A, 1.5KE62CA, 1.5KE68A, 1.5KE68CA, 1.5KE82A, 1.5KE82CA, 1.5KE100A, 1.5KE100CA, 1.5KE120A, 1.5KE120CA, 1.5KE150A, 1.5KE150CA, 1.5KE180A, 1.5KE180CA, 1.5KE200A, 1.5KE200CA, 1.5KE220A, 1.5KE220CA, 1.5KE250A, 1.5KE250CA, 1.5KE300A, 1.5KE300CA, 1.5KE350A, 1.5KE350CA, 1.5KE400A, 1.5KE400CA, 1.5KE440A, 1.5KE440CA Features • Peak pulse power: – 1500 W (10/1000 μs) – up to 10 kW (8/20 μs) • Stand-off voltage range from 5 V to 376 V • Unidirectional and bidirectional types • Operating Tj max: 175 °C • High power capability at Tj max.: up to 1100 W (10/1000 µs) • Lead finishing: matte tin plating Complies with the following standards • UL94, V0 • J-STD-020 MSL level 1 • J-STD-002, JESD 22-B102 E3 and MIL-STD-750, method 2026 • JESD-201 class 2 whisker test • UL 497B file number: QVGQ2.E136224 • IEC 61000-4-4 level 4: – 4kV • IEC 61000-4-2, C = 150 pF, R = 330 Ω exceeds level 4: – 30 kV (air discharge) – 30 kV (contact discharge) Description The 1.5KE TVS series is designed to protect sensitive equipment against electrostatic discharges according to IEC 61000-4-2, MIL STD 883 Method 3015, and electrical overstress such as IEC 61000-4-4 and 5. They are used for surges below 1500 W 10/1000 μs. This planar technology makes it compatible with high-end equipment and SMPS where low leakage current and high junction temperature are required to provide reliability and stability over time. DS0636 - Rev 5 - September 2022 For further information contact your local STMicroelectronics sales office. www.st.com 1.5KExxA, 1.5KExxCA Characteristics 1 Characteristics Table 1. Absolute maximum ratings (Tamb = 25 °C) Symbol Parameter Value Unit VPP Peak pulse voltage IEC 61000-4-2 (C = 150 pF, R = 330 Ω) Contact discharge 30 kV Air discharge 30 PPP Peak pulse power dissipation 10/1000 µs, Tj initial = Tamb 1500 W IFSM Non repetitive surge peak forward current for unidirectional types tp = 10 ms, Tj initial = Tamb 200 A Tstg Storage temperature range -65 to +175 °C Tj Operating junction temperature range -55 to +175 °C TL Maximum lead temperature for soldering during 10 s at 5 mm from case 260 °C Figure 1. Electrical characteristics - parameter definitions Figure 2. Pulse definition for electrical characteristics DS0636 - Rev 5 page 2/12 1.5KExxA, 1.5KExxCA Characteristics Table 2. Electrical characteristics - parameter values (Tamb = 25 °C, unless otherwise specified) Type 1.5KE6V8A/CA 1.5KE10A/CA 1.5KE12A/CA 1.5KE15A/CA 1.5KE18A/CA 1.5KE24A/CA 1.5KE27A/CA 1.5KE30A/CA 1.5KE33A/CA 1.5KE36A/CA 1.5KE39A/CA 1.5KE47A/CA 1.5KE56A/CA 1.5KE62A/CA 1.5KE68A/CA 1.5KE82A/CA 1.5KE100A/CA 1.5KE120A/CA 1.5KE150A/CA 1.5KE180A/CA 1.5KE200A/CA 1.5KE220A/CA 1.5KE250A/CA 1.5KE300A/CA 1.5KE350A/CA 1.5KE400A/CA 1.5KE440A/CA IRM max at VRM VBR at IBR (1) 10 / 1000 µs 8 / 20µs αT VCL(2)(3) IPP(4) RD VCL(2)(3) IPP(4) RD 25 °C Min. Typ. Max. Max. Max. Max. Max. Max. µA V V mA V A Ω V A Ω 10-4/°C 1000 5.8 6.45 6.8 7.14 10 10.5 143 0.023 13.4 746 0.008 5.7 10 8.55 9.5 10 10.5 1 14.5 100 0.040 18.6 538 0.015 7.3 5 10.2 11.4 12 12.6 1 16.7 90 0.046 21.7 461 0.020 7.8 1 12.8 14.3 15 15.8 1 21.2 71 0.076 27.2 368 0.031 8.4 1 15.3 17.1 18 18.9 1 25.2 59.5 0.106 32.5 308 0.044 8.8 1 20.5 22.8 24 25.2 1 33.2 45 0.178 42.8 234 0.075 9.4 1 23.1 25.7 27 28.4 1 37.5 40 0.228 48.3 207 0.096 9.6 1 25.6 28.5 30 31.5 1 41.5 36 0.278 53.5 187 0.118 9.7 1 28.2 31.4 33 34.7 1 45.7 33 0.333 59 169 0.144 9.8 1 30.8 34.2 36 37.8 1 49.9 30 0.403 64.3 156 0.170 9.9 1 33.3 37.1 39 41 1 53.9 28 0.461 69.7 143 0.201 10.0 1 40.2 44.7 47 49.4 1 64.8 23.2 0.664 84 119 0.291 10.1 1 47.8 53.2 56 58.8 1 77 19.5 0.933 100 100 0.412 10.3 1 53.0 58.9 62 65.1 1 85 17.7 1.12 111 90 0.510 10.4 1 58.1 64.6 68 71.4 1 92 16.3 1.26 121 83 0.598 10.4 1 70.1 77.9 82 86.1 1 113 13.3 2.02 146 69 0.868 10.5 1 85.5 95.0 100 105 1 137 11 2.91 178 56 1.30 10.6 1 102 114 120 126 1 165 9.1 4.29 212 47 1.83 10.7 1 128 143 150 158 1 207 7.2 6.81 265 38 2.82 10.8 1 154 171 180 189 1 246 6.1 9.34 317 31.5 4.06 10.8 1 171 190 200 210 1 274 5.5 11.6 353 28 5.11 10.8 1 188 209 220 231 1 328 4.6 21.1 388 26 6.04 10.8 1 213 237 250 263 1 344 5.0 16.2 442 23 7.78 11 1 256 285 300 315 1 414 5.0 19.8 529 19 11.3 11 1 299 332 350 368 1 482 4.0 28.5 618 16 15.6 11 1 342 380 400 420 1 548 4.0 32.0 706 14 20.4 11 1 376 418 440 462 1 603 3.5 40.3 776 13 24.2 11 1. To calculate VBR versus Tj : VBR at Tj = VBR at 25 °C x (1 + αT x (Tj - 25)) 2. To calculate VCL versus Tj : VCL at Tj = VCL at 25 °C x (.


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