NOT RECOMMENDED FOR NEW DESIGNS MCC 1N4614 omponents TM 20736 Marilla Street Chatsworth Micro Commercial Components THRU 1N4125 Features Zener Voltage Range = 1.8V to 47V 500mW Silicon Double Slug Type Construction Metallurgical Bonded Construction Lead Free Finish/Rohs Compliant (Note1) Suffix designates Zener Diodes Compliant. See ordering information) Moisture Sensitivity: Level 1 Mechanical Data DO-35 Case: Double slug type, hermetically sealed glass Marking : Cathode band and type number D Maximum Ratings Symbol Value Units Max. Steady State Power A Cathode Dissipation at PD 500 mW Mark O T <75 C, Lead Length=3/8 L o B Junction Temperature TJ 175 C o Storage Temperature Range T -55 to 175 C STG D Thermal Resistance, Junction o to lead 3/8 lead length RthJL 250 C/W from body C Electrical Characteristics 25C Unless Otherwise Specified Symbol Maximum Unit Max. Forward Voltage V 1.1 V F I =200mA F DIMENSIONS INCHES MM Note: 1. Lead in Glass Exemption Applied, see EU Directive Annex 7(C)-I. DIM MIN MAX MIN MAX NOTE A --- .166 --- 4.2 B --- .079 --- 2.00 C --- .020 --- .52 D 1.000 --- 25.40 --- www.mccsemi.com Revision: B 2012/01/01 1 of 5MCC 1N4614 thru 1N4125 TM Micro Commercial Components ELECTRICAL CHARACTERISTICS (T = 25C unless otherwise noted, V = 1.1 V Max I = 200mA for all types) A F F (3) (2) (5) (4) Maximum Zener Voltage Leakage Current Zener Impedance Reverse Zener Device (IZM) (1) Device IZT IR VR IZT=250UA Current ZZT V (Volts) Z Marking Min Nom Max mA uA( Max) Volts ohm(Max) 1N4614 1N4614 1.71 1.8 1.89 120 7.5 1 1200 1.90 2.0 2.10 5.0 1250 110 1 1N4615 1N4615- 4.0 2.09 2.2 2.31 100 11 1300 1N4616 1N4616----- 2.0 1 1N4617 1N4617- 2.28 2.4 2.52 95 1400 2.7 2.835 1N4618 1N4618--- 90 1 1500 2.565 1.0 0.8 3.0 3.15 87 1 1600 1N4619 1N4619 -- 2.85 85 7.5 1.5 1N4620 1N4620 -- 3.135 3.3 3.465 1650 3.42 83 7.5 1700 1N4621 1N4621- 3.6 3.78 2 4.095 80 5.0 2 1650 1N4622 1N4622-- 3.705 3.9 2 4.3 4.0 4.085 4.515 77 1600 1N4623 1N4623-- 75 3 1550 10.0 1N4624 1N4624--- 4.465 4.7 4.935 4.845 5.1 5.355 70 10.0 3 1500 1N4625 1N4625- 5.32 10.0 4 1N4626 1N4626------ 5.6 5.88 65 1400 5.89 6.2 6.51 61 1N4627 1N4627-- 1200 10.0 5 6.46 6.8 56 5.17 200 1N4099 1N4099 --- 7.14 10.0 7.125 10.0 200 1N4100 1N4100 --- 7.5 7.875 51 5.70 8.2 8.61 1.0 6.24 1N4101 1N4101 7.79 46 200 6.61 8.265 8.7 9.135 1.0 200 1N4102 1N4102 44 9.1 9.555 42 1.0 8.645 6.92 200 1N4103 1N4103 10 1.0 1N4104 1N4104- 9.5 7.60 200 10.5 38 8.44 1N4105 35 .05 200 1N4105 10.45 11 11.55 1N4106 1N4106 8.12 11.4 12 32 .05 200 12.6 1N4107 1N4107 9.857 12.35 13 29 .05 200 13.65 1N4108 1N4108 10.65 27 .05 200 13.3 14 14.7 1N4109 1N4109 11.40 15 25 .05 100 14.25 15.75 1N4110 1N4110 12.15 16 24 .05 100 15.2 16.8 1N4111 1N4111 12.92 17 17.85 22 .05 100 16.15 1N4112 1N4112 13.67 17.1 18 18.9 21 .05 100 1N4113 1N4113 14.44 19 19.95 20 .05 150 18.05 1N4114 1N4114 15.20 20 21 19 .01 150 19 1N4115 1N4115 16.72 20.9 22 23.1 17 .01 150 1N4116 1N4116 118.25 24 25.2 16 .01 150 22.8 1N4117 1N4117 19.00 25 26.25 151 .01 150 23.75 1N4118 1N4118 20.45 27 28.35 14 .01 150 25.65 1N4119 1N4119 21.28 28 29.4 141 .01 200 26.6 1N4120 1N4120 22.80 30 31.5 13 .01 200 28.5 1N4121 1N4121 33 34.65 12 .01 25.08 200 31.35 1N4122 1N4122 27.38 36 37.8 11 .01 200 34.2 1N4123 1N4123 29.65 39 40.95 9.8 .01 200 37.05 1N4124 32.65 1N4124 43 45.15 8.9 .01 250 40.85 1N4125 1N4125 35.75 47 49.35 8.1 .01 250 44.65 1. TOLERANCE AND TYPE NUMBER DESIGNATION (VZ) NOTES: The type numbers listed have a standard tolerance on the nominal zener voltage of 5%. 2. ZENER VOLTAGE (V ) MEASUREMENT Nominal zener voltage is measured with the device junction in the thermal equilibrium Z . at the lead temperature (T )at 30C 1C and 3/8 lead length. L 3. MAXIMUM ZENER CURRENT RATINGS (I ) ZM This data was calculated using nominal voltages. The maximum handing current capability on a worst case basis is limited by the actual zener voltage at the opertation piont and the power derating curve 4.Reverse Leakage Current(IR) reverse leakage current are guaranteed and measured at VR shown on the table . 5. Zener Impedance(ZZT) Derivation The Zener impedance is derived from the 60 cycle ac voltage.which results when an Ac . current having an rms value to 10% of the DC zener current (IZT) is superimposed on IZT. www.mccsemi.com Revision: B 2012/01/01 2 of 5