" SEMITRON INDUSTRIES LTD 4W3E ) Mm 38137889 0000099 2 BMSLCB Fe T= (1-23 SERIES Transient Voltage Suppressor = Glass Passivated Junction Voltage Range 6V8 200 Voits = GOOW Peak Pulse Power 1.5 Watt Steady State = Provisional Release = High Rel APPLICATIONS m Transient voltage suppression for induced lightning, NEMP, Electro Static Discharge, Powerline Incursion for Telecommunication, Datacommunication and General signalling applications. FEATURES w Glass passivated junction mw GOOW surge capability at 10/1000us | | w Excellent clamping capability m Low zener impedance @ High density mounting @ Unipolar and Bipolar m Poiarity designated (Unipolar) @ Ideal for Hybrid circuits mw Solder or Wire Bond m Operating temperature storage range -65C - +175C m Up to 400V available Contact Semitron Industries for mechanical details. MECHANICAL DATA m Solder mounting surfaces m Mounting position: any m Nickel plated copper electrodes m Gold plated Molybdenum available on request m Pressure contact - = NON-REPETITIVE PEAK PULSE POWER PULSE WAVEFORM = Pulse duration {tg} 1s tne for I T = exponential current wavetorm & t TEST WAVEFORM 5 to decay to hat peak valve too ae PARAMETERS y \ wei0usec 7 = Peak Value - {pp td = 1000 usec a = T T x = I I = 3 HalfValue - 2 z @ s0-b +10 x 1000 Waveform ri x | as defined by R.E.A. Z | Z : Vf ey ~ ! . a o 0 1 2 3 td PULSE DURATION (ys) ta tTime - mSec oe 11SEMITRON INDUSTRIES LTD GV3E >) MM 8137889 0000100 S BESLCB : . T-11-23 a 4 a e 6, f Electrical Characteristics @ 25C . Reverse Breakdown Maximum = Maximum Maximum Maximum Ee s Standoff Voltage Reverse Clamping PeakPulse Voltage 4 Voltage Vor @ ir leakage Voltage = Current = Temperature gS 4 @ve Or Variation a q of BV 4 Part VR hr kh Ve be Number Volts Min. Max. mA pA Volts. A m/c ~ PPGKES.S 5.50 612- 748 10 1000 10.8 56 5.0 bs x PPSKEG.8A 5.80 645-744 40 4000 105 37 30 ; ae PPGKET.5 605 6.75- : 10 41, a 0 ; PPBKET.5A 6.40 713-788 10 500 113 53 30 POWER DERATING fF g PPGUEB.2 6.63 7.38- 902 10 200 12.5 a3 60 . : P-PSKE 8.2A 7.02 779- 861 = 10 200 12:1 50 60 : PPGKES.L 7.37 B19- 100 1 50 138 44 70 2) 7 PPGKES.1A 778 B- 955 1 50 134 5 70 = P-PGKEIO 8.10 900- 110 4 10 15.0 40 80 = ' E 3 PPSNELOA 8.55 95- 105 1 10 145 ai 80 q PPSKELL 8.92 99- 121 1 5 16.2 a 9.0 3 1 : a PPGKELIA 9.40 105- 116 1 5 158 33 90 # 4 PPGKEL2 9.72 108- 132 1 5 173 35 10 a: whacent cane PPGKE 124 10.2 114- 126 1 5 16.7 36 10 z PPSKEI3 105 i17- 143 1 5 19.0 32 at : PPGKEI3A 1L1 2 137.4 5 18.2 3 2 PPGKELS 12.4 435- 165 4 5 22.0 27 13 3 P-PGKELSA 12.8 143-1881 5 212 2B 2 PPSKEIS 12.9 144-176 21 5 235 26 16 PPEKEIGA 13.6 152-168 21 5 25 27 14 P-POKELS 145 162- 198 1 5 265 23 17 a P-PGKEIBA 153 Wi- 19 #1 5 252 24 19 5 PPSKE20 16.2 180- 220 1 5 1 21 P-PGKEZ0A 171 190- 210 1 5 27 2 19 { PPEKE2Z 178 198-2420. 5 31.9 19 a - PPSKEZS. iss me. oe tg aU at LEAD PEK 19.4 8- 4 . 1 PPGKEZ4A 205 228- 22 1 5 332 18 23 t TEMPERATURE (C) 218 23-27 4 5 34 45 23 , P-PGKE 270 234 7- 24 1 5 375 46 5 PPCKE3O 243 279. 304 5 435 4 3 PPGKESOR 28 Sst 5 a4 ___is4 TYPICAL REVERSE CAPACITANCE AGAINST PPCKES3 26.8 27- 33 1 5 47? 126 a PPOKESSA aa3 ua. 0m? 2 se ia ES NOMINAL BREAKDOWN VOLTAGE PPEKESS 291 324- 396 1 5 520 116 35 308 2-0 B78 5 49.9 120 Ev PPEKES9 316 i- 429 1 5 56.4 105 39 PPGKEZ9A 333 374-401 5 53.9 112 6 PPGKESS a8 37. 4730~COL 5 61.9 26 8 PPGKEAIA 368 409-452 1 5 59.3 10.1 44 _ PPGKES? 38.1 423- BLT 4 5 67.3 a9 50 & PPEKESTA 40.2 447-4940 5 648 93 & PPCKESL 413 459-561 1 5 735 82 55 PPGKESIA 43.6 485- 536 1 5 701 86 4 5 PPEKESS 45.4 504- 616 1 5 205 74 58 PPGKESEA 478 $32- 588 01 5 710 78 56 3 PPOKES2 50.2 ssa- 682 1 5 89.0 68 65 PPGKEG2A 53.0 589- 651 1 5 88.0 74 62 PPSKESS 56.1 612-748 5 98.0 61 71 PPSKEGSA 58.1 6- M14 1 5 92.0 65 69 PPGKETS 60.7 675- 825 it 5 1080055 80 | PPHETEA 64.1 13- 788 14 5 1030 5.8 76 J PPSKER2 66.4 738- 902 1 5 1180 89 SA 20 PPSKE 828 701 779-8640 5 11300253 86 PPGKESL 737 819- 1000 1 5 1310048 9 PPSKESIA 738 B5- 5 1 5 1280 4B 94 PPSKEL00 81.0 900- 1100 1 5 144.0 42 109 NOMINAL BREAKDOWN 85.5 950- 1060 1 8 70 104 VenNa VOLTAGE (V) PPSKELIO 89.2 990- 1210 1 5 1680 38 120 PPGKELIOA 94.0 105.0- 1160 4 5 1520 4.0 115 PPCKEL20 97.2 1080-13201 5 1730038 431 P-PGKEL20A 102.0 1140- 1260 4 5 1650 83.6 125 P-PBKE130 105.0 1170- 143.004 8 1870 23.2 142 PPGKEL3OA 411.0 1240- 13704 8 1790 033 136 121.0 135.0- 1650 1 5 25.0 28 164 P-PGKELSOA 128.0 143.0- 1580 1 5 2070 28-29 157 P-PEKELEO 130.0 1440-17604 5 2300 8626 175 PPEKELCOA 136.0 1520- 1680 1 5 2190 27 167 P-PGKEL70 138.0 1830-1870 4 5 240 825 188 PPEKEL70A 145.0 1620- 1790 4 5 2340 4 26 188 PPEKELSO 146.0 1620- 1980 4 5 2580 89623 197 P-PGKELSOA 154.0 1710-1890 4 5 2460 8924 198 P-P6KEZ00 162.0 180.0- 22000 1 5 270 026 241 219 PPSKEZ00A 171.0 1900. 2100 1 5 2740022 209 Add suffix C for bipolar. Leakage current specification IR for devices of 10 Volts and below doubles in value. 12