/ 1N5985 , thru Microsemi Corp. 1N6031 ? The diode expens / SCOTTSDALE, AZ / For more information call: (602) 941-6300 FEATURES SILICON @ Popular DO-35 PackageSmall and Rugged 500 mW w Double Slug Construction ZENER DIODES m Constructed with an Oxide Passivated All Diffused Die MAXIMUM RATINGS Operating & Storage Temp.: 65C to +200C DC Power Dissipation: At Lead Temp. TL <50C Lead length 3/8: 500 mW Derate above +50C: 3.33mW/C Forward voltage @ 100mA: 1.5V t . and TL = 30C L= 3/8 ELECTRICAL CHARACTERISTICS 080 max, _ . 2.03 DIA. See the following table: 2.03 The type number listed indicates a 20% tolerance. For 10% tolerance, add suffix A; +000 for 5% tolerance, add suffix B; for 2% tolerance add suffix C; for 1% tolerance,.add suffix D. 36-400 MIN. 0.6 = 1 z POLARITY aus MAX, BAND : = {CATHODE} c 9 g 1,000 q L 36.400 MIN. = 0.018/0,022 Le i - 9-487:0.559 DA) g _ INCH z All dimensions in mm, ?+ E FIGURE 1 a E K a = I I Ll l ! l Ll lL Le MECHANICAL 20. 40 60 80 100 120 140 160 180 200 CHARACTERISTICS TL Lead Temperature C CASE: Hermetically sealed glass case. DO-35. 1 FINISH: All external surfaces are corrosion resistant and leads sol- derable. THERMAL RESISTANCE: 200C/ W (Typical) junction to lead at 0.375-inches from body. POLARITY: Diode to be operated 4.7 volt with the banded end positive with respect to the opposite end. 47 volt ia; 33 volt 27 voit 20 volt Is t 12 volt 6.8 volt ao 5.6 volt Zz Dynamic Impedance (Ohms) 2z Dynamic Impedance (Ohms) 3 A 5 1.0 5. 10 100 . \z Zener Current (mA) iz Zener Current (mA) Typical Effect of Zener Current Typical Effect of Zener Current 5-60 on Zener Impedance on Zener Impedance1N5985 thru 1N6031 *ELECTRICAL CHARACTERISTICS 30C Lead Temperature. Lead Length 3/8. Max. Zener Impedance Max. Reverse Leakage Current (Note 1) Current Typical Nominal Zor @ bor Zox @ lex = 0.25MA In @ Ve Max. Dc. | Temp. Coef. Zener Voltage} Test Ohms Ohms HA Volts Zener of Zener JEDEC V2 @ ler Current A, A, L A, A, Current Voltage Type Volts ler B,C,D Non- |B,C,D]| Non- B,C, D) Non- B,C, D Non- Izm avez Number {Note 2) mA Suffix Suffix | Suffix Suffix Suffix Suffix Suffix Suffix | (Note 3) %/C IN5985 2.4 5.0 100 110 1800 2000 100 100 1.0 0.5 208 -0.09 1N5986 2.7 5.0 100 110 1900 2200 75 100 1.0 0.5 185 -0.075 1N5987 3.0 5.0 95 100 2000 2300 50 100 1.0 0.5 167 -0.07 IN5988 3.3 5.0 95 100 2200 2400 25 75 1.0 0.5 152 -0.06 1N5989 3.6 5.0 90 95 2300 2500 15 50 1.0 0.5 139 -0.055 IN590 3.9 5.0 90 95 2400 2500 10 25 1.0 1.0 128 -0.045 1N5991 4.3 5.0 88 90 2500 2500 5.0 15 1.0 1.0 116 -0.01 IN5992 4.7 5.0 70 90 2200 2500 3.0 10 1.5 1.0 106 +0.01 1N5993 5.1 5.0 50 88 2050 2500 2.0 5.0 2.0 1.0 98 +0.025 1N5994 5.6 5.0 25 70 1800 2200 2.0 3.0 3.0 1.5 89 +0.035 IN5995 6.2 5.0 10 50 1300 2050 1.0 2.0 4.0 2.0 81 +0.04 1N5996 6.8 5.0 8.0 25 750 1800 1.0 2.0 5.2 3.0 74 +0,044 1N5997 7.5 5.0 7.0 10 600 1300 0.5 1.0 6.0 4.0 67 +0.051 1N5998 8.2 5.0 7.0 15 600 750 0.5 1.0 6.5 5.2 61 +0.055 1N5999 9.1 5.0 10 18 600 600 0.1 0.5 7.0 6.0 55 +0.061 IN6000 10 5.0 15 22 600 600 0.1 0.5 8.0 6.5 50 +0.065 1N6001 11 5.0 18 25 600 600 0.1 0.1 8.4 7.0 45 +0.068 IN6002 12 5.0 22 32 600 600 0.1 0.1 9.1 8.0 42 +0.073 IN6003 13 5.0 25 36 600 600 0.1 0.1 9.9 8.4 38 40.075 IN6004 15 5.0 32 42 600 600 0.1 0.1 11 9.1 33 +0.079 IN6005 16 5.0 36 48 600 600 0.1 0.1 12 9.9 31 +0.080 1N6006 18 5.0 42 55 600 600 0.1 0.1 14 1l 28 +0.083 1N6007 20 5.0 48 62 600 600 0.1 0.1 15 12 25 +0.085 1N6008 22 5.0 55 70 600 600 0.1 0.1 17 14 23 +0.087 1N6009 24 5.0 62 78 600 600 0.1 Q.1 18 15 21 +0.090 IN6016 27 5.0 70 88 600 700 0.1 0.1 2) 17 19 +0.091 IN601)1 30 5.0 78 95 600 700 0.1 0.1 23 18 17 +0.093 IN6012 33 5.0 88 110 700 800 Ol O.1 25 21 15 +0.094 1N6013 36 5.0 95 130 700 900 0.1 0.1 27 23 14 +0.094 IN6014 39 2.0 130 170 800 1000 0.1 0.1 30 25 13 +0.095 IN6015 43 2.0 150 180 3900 1100 0.1 0.1 33 27 12 +0.695 1N6016 47 2.0 170 200 1000 1300 0.1 0.1 36 30 11 +0.096 1N6017 51 2.0 180 225 1300 1400 0.1 0.1 39 33 9.8 +0.096 1N6018 56 2.0 200 240 1400 1600 0.4 0.1 43 36 8.9 +0.096 1N6019 62 2.0 225 265 1400 1700 01 0.1 47 39 8.0 +0.097 1N6020 68 2.0 240 280 1600 2000 0.1 0.1 52 43 7.4 +0.097 1N6021 75 2.0 265 300 1700 2300 0.1 0.1 56 47 6.7 +0,098 1N6022 82 2.0 280 350 2000 2600 0.1 0.1 62 52 6.1 +0,098 1N6023 91 2.0 300 400 2300 3000 01 0.1 69 56 5.5 +0.099 1N6024 100 1.0 500 800 2600 4000 0.1 0.1 76 62 5.0 +0.110 1N6025 110 1.0 650 950 3000 4500 0.1 0.1 84 69 4.56 +0.110 1N6026 120 1.0 800 1250 4000 5000 01 0.1 91 76 4.2 +0.110 1N6027 130 1.0 950 1400 4500 5500 01 0.1 99 84 3.8 +0.110 1N6028 150 1.0 1250 1700 5000 6000 0.1 0.1 114 91 3.3 +0.110 1N6029 160 1.0 1400 2000 5500 7000 0.1 0.1 122 99 3.1 +0.110 1N6030 180 1.0 1700 2350 6000 8000 0.1 0.1 137 114 2.8 +0.110 1N6031 200 1.0 2000 2700 7000 9000 0.1 0.1 152 122 2.5 +0.110 *Indicates JEDEC Registered Data. 5-615-62 1N5985 thru 1N6031 NOTE 1. Zener impedance is derived from the 1KHz AC voltage which results when an AC current having an rms value equal to 10% of DC zener current (IZT or IZK) is superimposed on IZT or IZK. NOTE 2. Voltage measurements to be performed 20 seconds after ap- plication of the DC test current. NOTE 3. The maximum zener current Izm shown is for the nominal volt- ages. The fotlowing formula can be used to determine the worst case current for any tolerance device. m= osm lz Vzm Where Vzm is the high end of the voltage tolerance specified and P is the rated power of the device. CAPACITANCE vs. Vz GURVE TYPICAL CAPACITANCE IN PICOFARADS 0 20 40 60 80 ZENER VOLTAGE Vz 140 160 180 200) 226