SEMITRON INDUSTRIES LTD U3E D MM 8137889 0000181) 9 BMSLCB T-U-1S IN5333-1N5388 scxics Zar, ZENER IMPEDANCE (OHMS) 100 ~ Se = os High Power Zener Diode Voltage Range 3V3 to 200 Volts 5.0 Watt Steady State FEATURES mw High power regulator diode r w High surge capabilities m 100% Tested 18 yg 912, m -65C to +200C is | ia tenmi MECHANICAL DATA m Case: Moulded thermosetting plastic mw Finish: All external surfaces are corrosion | 335 resistant. Leads are readily solderable. i aw. nm m Polarity: Cathode indicated by colour band. eon 100, MN ss Mounting Position: Any _ iL rag m Weight: 0.7 grams eon nm TYPICAL ZENER IMPEDANCE VS. ZENER CURRENT FOR TYPES SHOWN 60 CPS TEST CURRENT SET EQUAL TO 10%t, 1N5335B 1N$338B TYPICAL ZENER IMPEDANCE VS. ZENER CURRENT FOR TYPES SHOWN AMS VALUE OF 1908 RMS VALUE OF . 60 CPS TEST g CURRENT SET = TO 10%t, = 1N5388B 3 100 10 1NS378B w 1NS36SB t 1N53578 1000 at] 106 10 108 Izy. ZENER CURRENT (ma) 4zy Zener Current (mA) NOTE 1 Devices listed have a +5% voltage tolerance on nominal Vz. The suffix A denotes a +10% tolerance and NO SUFFIX denotes a +20% tolerance. NOTE 2 Nominal Zener Voltage (V2) is read with the device in standard test Clips with 3/8 to 1/2 inch spacing between clip and case of the diode. Before reading the diode is allowed to stabilize for a penod of 40 + 10 milliseconds at 25C (+8, -2C). NOTE 3 The Zener Impedance (Zz, or 2zx) is derived from the 60Hz ac voltage, which results when an ac current having a ms value equal to 10% of the OC zener current (tr of zx) is superimposed on tz or Iz, respectively. This specification applies only to +10% and +5% devices. NOTE 4 The Maximum Reverse (leakage) Current is specified for devices with +20% and +10% voltage tolerances on nominal Vz in one column and the reverse current for +5% tolerance devices in another calumn. NOTE The Maximum Zener Current (lm) shown is for +5% tolerance devices. tam for 10% and 420% devices can be calculated using the formula: lu= P Vom where Vz is Vz at the high end of the voltage tolerance specified and P is the rated power of the device, , NOTE 6 The Surge Current (Is) is specified as the maximum peak of a nonrecurrent sine wave of 8.3 milliseconds duration. NOTE 7 Voltage Regulation (AVz) is the difference between the voltage measured at 10% and 50% of Izu. This specification applies onty to +10% and +5% devices. 331 POWER DERATING CURVE Pg. MAXIMUM POWER DISSIPATION (WATTS) s 0 12h 188 Ty. Lead temperatura (C) 3/8" from body TYPICAL CAPACITANCE vs REVERSE VOLTAGE FOR 5 WATT ZENERS t 18 Vp (VOLTS) 10 TYPICAL CAPACITANCE vs REVERSE VOLTAGE FOR 5 WATT ZENERS CAPACITANCE (9) |. 1 V_ (VOLTS) 1N53576 Va 100 SEMITRON INDUSTRIES LTD T-- 1s 43E D MM 8137889 GO001482 0 EMSLCB Electrical Characteristics @ 25C ; ZENERS, REFERENCE Maximum Maximum IR Test Maximum Dynamic Maximum Dynamic Maximum Voltage IR Test Regulator Knee Maximum Voltage Regulator Test Impedance Reverse (VR) Voltage Current impedance Surge Regulation Type Voltage Current (Zz) Current (Non-suffix & (VR) (Iz) at 1.0 mA Current (AV2) Number (Vz) (id (A&B Suffix) (ip) A Suffix) {B Suffix) (B Suffix} (A&B Suffix) (ip) (A&B Suffix) v mA de Ohms pA v mA Ohms Amps Valts 1N5333B 3.3 380 3.0 300 1.0 1.0 1440 400 20 0.85 1N5334B 3.6 350 25 150 1.0 1.0 1320 500 18.7 0.80 1N5335B 3.9 320 2.0 50 1.0 10 1220 500 17.6 0.54 1N5336B 43 290 2.0 10 1.0 1.0 1100 500 16.4 0.49 1N5337B 47 260 2.0 5.0 1.0 1.0 1010 450 15.3 0.44 1N5338B 5.1 240 15 1.0 1.0 1.0 930 400 14.4 0.39 1N53398 5.6 220 10 1.0 2.0 2.0 865 400 13.4 0.25 1N5340B 6.0 200 2.0 10 3.0 3.0 790 x0 12.7 0.19 1N5341B 6.2 200 1.0 1.0 3.0 3.0 765 200 12.4 0.10 1N5342B 6.8 175 1.0 10 49 .2 700 200 11.5 0.15 1N5343B 75 175 15 10 5.4 5.7 630 200 10.7 0.15 1N53448 8.2 150 1.5 10 5.9 6.2 580 200 10 0.20 1N53458 87 150 2.0 10 6.25 6.6 545 200 95 0.20 1N53468 9.1 150 2.0 75 6.6 6.9 520 150 9.2 0.22 1N5347B 10 125 2.0 5.0 72 76 475 125 86 0.22 1N5348B 11 125 25 5.0 8.0 8.4 430 125 8.0 0.25 1N53498 12 100 2.5 2.0 86 9.1 395 125 75 0.25 1N5350B8 13 100 25 1.0 94 99 365 100 7.0 0.25 1N5351B 14 100 25 1.0 10.1 10.6 340 75 6.7 0.25 1N5352B 15 75 25 1.0 10.8 11.5 315 75 63 0.25 1N5353B 16 75 25 1.0 11.5 12.2 295 75 6.0 0.30 1N5354B 17 70 25 0.5 12.2 12.9 280 75 58 0.35 1N5355B 18 65 25 0.5 13 13.7 264 75 5.5 0.40 1N53568 19 65 3.0 0.5 13.7 14.4 250 75 5.3 0.40 1N5357B 20 65 3.0 0.5 14.4 15.2 237 75 5.1 0.40 1N5358B 22 50 3.5 0.5 15.8 16.7 216 ve.) 47 0.45 1N5359B 24 50 3.5 0.5 17.3 18.2 198 100 44 0.55 1N5360B 25 50 4.0 05 18 19 190 110 43 0,55 1N5361B 27 50 5.0 0.5 19.4 20.6 176 120 4.1 0.60 1N5362B 28 50 6.0 0.5 20.1 21.2 170 130 3.9 0.60 1N5363B 30 40 8.0 05 21.6 22.8 158 140 3.7 0.60 1N5364B 33 40 10 05 23.8 25.1 144 150 35 0.60 1N5365B 36 x 11 0.5 25.9 27.4 132 160 3.3 0.65 1N5366B 39 30 14 05 28.1 29.7 122 170 3.1 0.65 1N5367B 43 x 20 0.5 34 32.7 110 190 28 0.70 1N5368B 47 25 25 05 33.8 35.8 100 210 2.7 0.80 1N5369B 51 25 27 0.5 36.7 38.8 93 230 25 0.90 1N5370B 56 20 35 0.5 40.3 42.6 86 280 2.3 1.00 1N5371B 60 20 40 05 43 45.5 79 350 2.2 1.20 1N5372B 62 20 42 05 44.6 471 76 400 21 1.35 1N53738 68 20 44 0.5 49 51.7 70 500 2.0 1.50 1N5374B 75 20 45 05 54 56 63 620 19 1.60 1N5375B 82 15 65 05 59 62.2 58 720 18 1.80 1N5376B 87 15 5 05 63 66 54.5 760 17 2.00 1NS377B 91 15 xis) 05 65.5 69.2 52.5 760 16 2.20 1N5378B 100 12 90 05 72 76 475 800 15 2.30 1N5379B 110 12 125 05 79.2 83.6 43 1000 14 2.50 1N5380B 120 10 170 05 86.4 91.2 39.5 1150 13 2.50 1N5381B 130 10 190 05 93.6 98.8 36.6 1250 1.2 2.50 1N5382B 140 8.0 230 05 101 106 34 1500 12 2.50 1N5383B 150 8.0 330 05 108 114 31.6 1500 a1 3.00 1N5384B8 160 8.0 350 0.5 115 122 29.4 1650 14 3.00 1N5385B 170 8.0 380 05 122 129 28 1750 1.0 3.00 1N53868 180 5.0 430 05 130 137 26.4 1750 1.0 4.00 1N5387B 190 5.0 450 0.5 137 144 25 1850 0.9 5.00 1N5388B 200 5.0 480 0.5 144 152 23.6 1850 0.9 5.00 Vi=4.2V@ l= 1.08 AND LIMITERS