SEMITRON INDUSTRIES LTD 43E D MM 8137889 OOOO1GS Oo MESLCB TAL Peak Pulse (Pp) mn KW 100 Hermetically Sealed Metal Packaged = Surge Suppressor Diode Voltage Range 5V1i to 200 Volts 75 Watt Steady State = 5 KWatt Peak Power APPLICATIONS m A range of high power zener and avalanche surge suppressor diodes available to BS 9305-F-0811 in a hermetically sealed DO5 package in both unipolar and bipotar configurations. FEATURES @ Hermetically sealed DOS package @ Available in both uni and bipolar w Stud mounted @ High reliability m T operating -55C to +175C MECHANICAL CHARACTERISTICS m Case: Hermetically sealed DO5 outline w Finish: All external surfaces are corrosion resistant and terminal solderable w Identification: Body marked with Type No., logo and zener symbol m Polarity: Indicated by direction of zener symbol mw Weight: 14 grammes approximately excluding mounting kit ELECTRICAL CHARACTERISTICS m FORWARD VOLTAGE Vf 1.5V max. @ If < 140A w Vz measured with pulse < 100yS @ Turn-on time Unipolar < 10uS Bipolar < 5 x 10S All electrical characteristics 25C unless otherwise stated. AVAILABLE IN THE FOLLOWING CONFIGURATIONS > 8 Stud Stud Cathode Anode Double Normal Reverse Anode obi 230 8s ri ) af (.53), ~~ ( 25) (.68") 13. + 17.4 max o> 28 UNF max AF ! 12 ma: pe (.47" ) a 25.411" (.45) 11.5 hee 25.4 1") ____petg max o Case Outline DOS diam in mm (inch) NON-REPETITIVE PEAK PULSE POWER RATING CURVE Exponential wave-form {See Fig 4) ws 10 pa 100 ya 1m 10 me. Puise Time itp) Note: Peak power detined as peak voltage times peak current PEAK POWER DERATING CURVE HW Permissible ares of operation 25 Case Temperature 315_- T- /l-23 SEMITRON INDUSTRIES LTD HAE D 8137889 OOOO1Lbb 2 MMESLCB Electrical Characteristics @ 25C Reverse Reverse Max. Clamping Max. Max Peak = Max. Typical Breakdown Standoff Voltage at Peak Clamping Pulse Temp Capacitance Type Voltage Voltage Pulse Current Voltage Current. = Coef at Standoff euonn of BV Voltage Beh Ve @ max ia Vou @ tre Ve. @ lp Va. sw (% per C) IMHZ OO OO (oF) (mA) (mA) (A) A 1635.2, 4854 3 42 415 7.0 150 80 200 - - -.02 19K LGHS.4 .35.3 25 47 15 TO 100 75 200 - - - OL + 02 18K 685.6 .35.5 25 47 45 70 100 80 200 - - ~04 + .02 18K L6B6.2A 6.06.4 10 5.0 5.0 70 x 8 100 - - +.03 16K L6B6.2 5.86.6 20 .2 10 ao 6 10.0 200 - - +.03 16K 686.8 6.47.2 25 67 5 85 60 10.5 185 10.5 476 +04 15K 1887.5 TA1T9 25 63 10 9.6 5S 113 171 113 443 +.05 13K 1688.2 TV.78.7 25 69 10 10.0 53 4124 161 121 413 +.06 11K ss 1689.1 9.69.6 10 V7 05 114 48 134 145 13.4 373 +.06 11K ; ws Lea10 9.5105 10 a5 O41 12.3 a4 145 134 145 345 +07 10K o 16811 10.411.6 10 9.3 0.14 13.3 41 15.6 124 15.6 321 +07 aK Gi 16812 11.4127 10 10.2 O41 14.2 39 16,7 a7 16.7 298 +.08 7.5K % EB wn Lea13 12.4141 10 11.1 O1 15.4 5 18.2 106 18.2 275 +.08 6.5K eB: 4 & Lesis 13.8-15.6 10 12.4 0.1 18.0 x 212 92.3 21.2 236 +.08 6.0K ce e L818 153172 10 13.7 0.1 19.1 28 25 8687.1 25 222 +.08 5.5K Ee & = tenis 16.8191 10 15.1 O41 21.4 25 25.2 76.7 26.2 198 +08 5.0K Fc 2 a E 2 L6B20 18.8-21.2 10 16.9 O4 23.5 2a I 70.2 27.7 181 +.09 4.5K <M LeB22 20,8-23,3 10 18.7 O41 26.0 a 30.8 63.7 06 163 +09 4.0K Bee 6824 22.7-25.9 10 204 O41 8.2 20 33.2 58.5 33.2 151 +.09 3.5K \eB27 25.1-28.9 10 225 OL 318 17 37.5 52.0 375 133 +.09 3.0K 6830 28.0-32.0 10 25.2 OL 3A 15 414 46.8 414 121 +.40 27K L633 31.0-35.0 10 273 O1 38 14 45.7 B0 45,7 109 +.10 2.4K Leas 34.0-38.0 10 1.6 0.4 42.4 2B 49.9 39.0 49.9 100 +10 24K L6B839 37.0-41.0 10 33.2 02 458 12 53.9 37.4 53.9 93 +.10 2.0K Leees 40.046.0 10 36.0 0.4 504 i 59.3 329 69.3 & +10 1.7K (6B? 44,050.0 10 39.6 0.1 55.0 10 64.8 0.2 64.8 17 +14 1.5K 1eas. 48.054.0 10 43.2 O21 59.6 92 70.4 278 70.1 71 +11 1.3K Lease 52.0-60.0 10 46.8 0.1 655 84 77.0 25.3 77.0 65 +i 1.1K LeBe2 58.066 0 10 52.2 0.1 72.2 76 85.0 23.0 85.0 59 +14 1.0K Lapse 64.0-72.0 10 57.6 0.1 78.2 7.0 92.0 21.2 92.0 54 +11 900 16875 70.0-79.0 10 63.0 01 875 63 103 19.0 103 49 +11 500 8882 77.087.0 10 69.0 O1 96.0 58 113 173 113 44 +11 700 .6B91. 85.0-96.0 20 76.0 O14 106 5.2 125 15.6 1 40 +31 600 68100 94.0-106 10 84.0 O14 116 48 137 143 137 v7 +31 500 (68110 104-116 10 93.0 Ot 129 43 352 129 152 33 +21 400 tsB120 114-127 10 102 OL 140 39 165. 18 165 wv +il 350 1.68130 124141 10 114 O48 152 36 179 10.9 179 arg +48 330 168150 138-156 10 128 O21 175 31 207 94 207 24.2 4.11 250 L6Bi60 153471 10 137 O12 195 28 230 a4 219 22.8 +42 200 L6B180 168-191 10 151 Ot 209 2.6 246 80 246 20.3 +14 175 Lea200 188-212 10 169 O1 233 24 274 7.2 274 18.3 +11 150 POWER DERATING CURVE Code Interpretation/Ordering Information Limiter Nominal Voltage [nt - L 6 B10 =2 Device series { | Voltage tolerance rt TTI A=1t1% H=42% B=+5% C=110% D=+115% 2 c Case Temperature 316