1N4099UR thru 1N4135UR (or MLL4099 thru MLL4135) and 1N4614UR thru 1N4627UR (or MLL4614 thru MLL4627) SCOTTSDALE DIVISION GLASS SURFACE MOUNT 0.5 WATT ZENERS APPEARANCE The 1N4099UR thru 1N4135UR and 1N4614UR thru 1N4627UR series of 0.5 watt glass surface mount DO-213AA Zener voltage regulators provides a selection from 1.8 to 100 volts in standard 5% tolerances as well as tighter tolerances identified by different suffix letters on the part number. These are also available with an internal-metallurgical-bond option by adding a “-1” suffix (see separate data sheet) including JAN, JANTX, and JANTXV military qualifications. Microsemi also offers numerous other Zener products to meet higher and lower power applications. DO-213AA WWW . Microsemi .C OM DESCRIPTION IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com FEATURES APPLICATIONS / BENEFITS • Surface mount equivalent to JEDEC registered 1N4099 thru 1N4135 and 1N4614 thru 1N4627 series • Internal metallurgical bond option available by adding a “-1” suffix that also includes JAN, JANTX, and JANTXV qualifications per MIL-PRF-19500/435 (see separate data sheet for same part numbers with “-1” suffix) • DO-7 or DO-35 glass body axial-leaded Zener equivalents also available per JEDEC registration (see separate data sheet for part numbers 1N4099 thru 1N4135 and 1N4614 thru 1N4627 series MAXIMUM RATINGS • • • • • • • Regulates voltage over a broad operating current and temperature range Extensive selection from 1.8 to 100 V Standard voltage tolerances are plus/minus 5% with no suffix Tight tolerances available in plus or minus 2% or 1% with C or D suffix respectively Hermetically sealed surface mount package Nonsensitive to ESD per MIL-STD-750 Method 1020 Minimal capacitance (see Figure 3) Inherently radiation hard as described in Microsemi MicroNote 050 MECHANICAL AND PACKAGING º º • CASE: Hermetically sealed glass DO-213AA (SOD80 or MLL34) MELF style package • TERMINALS: End caps tin-lead plated solderable per MIL-STD-750, method 2026 • POLARITY: Cathode indicated by band where diode is to be operated with the banded end positive with respect to the opposite end for Zener regulation • MARKING: cathode band only • TAPE & REEL option: Standard per EIA-481-1-A with 12 mm tape, 2000 per 7 inch reel or 5000 per 13 inch reel (add “TR” suffix to part number) • WEIGHT: 0.04 grams • See package dimensions on last page Microsemi Scottsdale Division 8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503 Page 1 1N4099UR–1N4135UR 1N4614UR – 1N4627UR • Operating and Storage temperature: -65 C to +175 C • Thermal Resistance: 150ºC/W junction to end cap and 300ºC/W junction to ambient when mounted on FR4 PC board (1 oz Cu) with recommended footprint (see last page) • Steady-State Power: 0.5 watts at end cap temperature TEC < 100oC or ambient temperature TA < 25ºC when mounted on FR4 PC board as described for thermal resistance above (see Figure 2 for derating) • Forward voltage @200 mA: 1.1 volts • Solder Temperatures: 260 ºC for 10 s (max) Copyright 2002 11-05-03 REV C • 1N4099UR thru 1N4135UR (or MLL4099 thru MLL4135) and 1N4614UR thru 1N4627UR (or MLL4614 thru MLL4627) SCOTTSDALE DIVISION INDUSTRY PART NUMBER MICROSEMI PART NUMBER NOMINAL ZENER VOLTAGE ZENER TEST CURRENT VZ @ IZT IZT (NOTE 2) MAXIMUM ZENER IMPEDANCE MAXIMUM REVERSE CURRENT MAXIMUM NOISE DENSITY MAXIMUM ZENER CURRENT ZZT IR @ VR ND @ IZT IZM (Note 3) TYPICAL TEMP.COEFF. OF ZENER VOLTAGE αVZ o (NOTE 1) o tolerance with suffix C and D respectively. VZ is measured with the diode in thermal equilibrium (still air) at 25 C for end-cap terminations. NOTE 3: The zener impedance is derived by superimposing on IZT, a 60 Hz rms ac current equal to 10% of IZT (25µA). See MicroNote 202 for zener impedance variation with different operating currents. Copyright 2002 11-05-03 REV C Microsemi Scottsdale Division 8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503 Page 2 1N4099UR–1N4135UR 1N4614UR – 1N4627UR VOLTS OHMS Volts mA %/ C µA µA µV/√Hz 1N4614UR MLL4614 1.8 250 1200 3.5 1.0 1 120 -0.075 1N4615UR MLL4615 2.0 250 1250 2.5 1.0 1 110 -0.075 1N4616UR MLL4616 2.2 250 1300 2.0 1.0 1 100 -0.075 1N4617UR MLL4617 2.4 250 1400 1.0 1.0 1 95 -0.075 1N4618UR MLL4618 2.7 250 1500 0.5 1.0 1 90 -0.075 1N4619UR MLL4619 3.0 250 1600 0.4 1.0 1 87 -0.075 1N4620UR MLL4620 3.3 250 1650 3.5 1.5 1 85 -0.075 1N4621UR MLL4621 3.6 250 1700 3.5 2.0 1 83 -0.065 1N4622UR MLL4622 3.9 250 1650 2.5 2.0 1 80 -0.060 1N4623UR MLL4623 4.3 250 1600 2.0 2.0 1 77 -0.050 1N4624UR MLL4624 4.7 250 1550 5.0 3.0 1 75 -0.040,+0.020 1N4625UR MLL4625 5.1 250 1500 5.0 3.0 2 70 -0.045,+0.030 1N4626UR MLL4626 5.6 250 1400 5.0 4.0 4 65 -0.020,+0.040 1N4627UR MLL4627 6.2 250 1200 5.0 5.0 5 61 -0.010,+0.050 1N4099UR MLL4099 6.8 250 200 1.0 5.17 40 56 0.040 1N4100UR MLL4100 7.5 250 200 1.0 5.70 40 51 0.045 1N4101UR MLL4101 8.2 250 200 0.5 6.24 40 46 0.048 1N4102UR MLL4102 8.7 250 200 0.5 6.61 40 44 0.049 1N4103UR MLL4103 9.1 250 200 0.5 6.92 40 42 0.050 1N4104UR MLL4104 10 250 200 0.5 7.60 40 38 0.055 1N4105UR MLL4105 11 250 200 .05 8.44 40 35 0.060 1N4106UR MLL4106 12 250 200 .05 9.12 40 32 0.065 1N4107UR MLL4107 13 250 200 .05 9.87 40 29 0.065 1N4108UR MLL4108 14 250 200 .05 10.65 40 27 0.070 1N4109UR MLL4109 15 250 100 .05 11.40 40 25 0.070 1N4110UR MLL4110 16 250 100 .05 12.15 40 24 0.070 1N4111UR MLL4111 17 250 100 .05 12.92 40 22 0.075 1N4112UR MLL4112 18 250 100 .05 13.67 40 21 0.075 1N4113UR MLL4113 19 250 150 .05 14.44 40 20 0.075 1N4114UR MLL4114 20 250 150 .01 15.20 40 19 0.075 1N4115UR MLL4115 22 250 150 .01 16.72 40 17 0.080 1N4116UR MLL4116 24 250 150 .01 18.25 40 16 0.080 1N4117UR MLL4117 25 250 150 .01 1900 40 15 0.080 1N4118UR MLL4118 27 250 150 .01 20.45 40 14 0.085 1N4119UR MLL4119 28 250 200 .01 21.28 40 14 0.085 1N4120UR MLL4120 30 250 200 .01 22.80 40 13 0.085 1N4121UR MLL4121 33 250 200 .01 25.08 40 12 0.085 1N4122UR MLL4122 36 250 200 .01 27.38 40 11 0.090 1N4123UR MLL4123 39 250 200 .01 29.65 40 9.8 0.090 1N4124UR MLL4124 43 250 250 .01 32.65 40 8.9 0.090 1N4125UR MLL4125 47 250 250 .01 35.75 40 8.1 0.090 1N4126UR MLL4126 51 250 300 .01 38.76 40 7.5 0.090 1N4127UR MLL4127 56 250 300 .01 42.60 40 6.7 0.090 1N4128UR MLL4128 60 250 400 .01 45.60 40 6.4 0.090 1N4129UR MLL4129 62 250 500 .01 47.10 40 6.1 0.090 1N4130UR MLL4130 68 250 700 .01 51.68 40 5.6 0.095 1N4131UR MLL4131 75 250 700 .01 57.00 40 5.1 0.095 1N4132UR MLL4132 82 250 800 .01 62.32 40 4.6 0.095 1N4133UR MLL4133 87 250 1000 .01 66.12 40 4.4 0.095 1N4134UR MLL4134 91 250 1200 .01 69.16 40 4.2 0.095 1N4135UR MLL4135 100 250 1500 .01 76.00 40 3.8 0.095 NOTE 1: These may be ordered as either 1N4614UR-1N4627UR, 1N4099UR-1N4135UR or as the MLL4614-MLL4627, MLL4099-MLL4135. NOTE 2: The JEDEC type numbers shown above have a standard tolerance of +/-5% for nominal Zener voltage and are also available in 2% and 1% (NOTE 1) WWW . Microsemi .C OM *ELECTRICAL CHARACTERISTICS @ 25oC 1N4099UR thru 1N4135UR (or MLL4099 thru MLL4135) and 1N4614UR thru 1N4627UR (or MLL4614 thru MLL4627) SCOTTSDALE DIVISION Pd Rated Power Dissipation (mW) WWW . Microsemi .C OM GRAPHS and CIRCUIT TEC TA o TEC, End Cap Temperature ( C) or TA Ambient temperature on FR4 PC board FIGURE 2 Power Derating Curve Capacitance vs. VZ Curve Typical Capacitance in Picofarads (pf) FIGURE 1 Noise Density Measurement Circuit Noise density, (ND) is specified in microvolt-rms per squreroot-hertz. Actual measurement is performed using a 1 KHz to 3 KHz frequency bandpass filter at a constant Zener test o current (IZT) AT 25 C ambient temperature. ND is calculated from the formula. FIGURE 3 Capacitance vs. Zener Voltage (Typical) Zener Voltage VZ DIM A B C INCHES MIN MAX 0.063 0.067 0.130 0.146 0.016 0.022 MILLIMETERS MIN MAX 1.60 1.70 3.30 3.70 0.41 0.55 PAD LAYOUT A B C Copyright 2002 11-05-03 REV C 1N4099UR–1N4135UR 1N4614UR – 1N4627UR PACKAGE DIMENSIONS INCHES .200 .055 .080 mm 5.08 1.40 2.03 Microsemi Scottsdale Division 8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503 Page 3