HSMBJ5913B thru HSMBJ5956B 8700 E. Thomas Road Scottsdale, AZ 85251 Tel: (480) 941-6300 Fax (480) 947-1503 FEATURES: • • • • Surface mount equivalent to 1N5913B thru 1N5956B Popular HSMBJ Package outline-Small and Rugged Zener voltage 3.3V to 200V Constructed with an Oxide Passivated All Diffused Die SILICON 3.0 W ZENER DIODE MAXIMUM RATINGS: • • • • Junction and Storage Temperature: -55°C to +150°C DC Power Dissipation 3 W at Lead Temp. TL ≤75°C Derate above +75°C: 40 mW/°C Forward voltage @ 200mA: 1.2Volts and TL = 30°C Electrical Characteristics @ TL = 30°C PART NUMBER ZENNER VOLTAGE VT (NOTE 1) Volts mA DYNAMIC IMPEDANCE ZZT (NOTE 2) Ohms mA KNEE IMPEDANCE ZZK (NOTE 2) OHMS REVERSE CURRENT IR REVERSE VOLTAGE VR µ Adc Volts MAX.DC CURRENT I ZM (NOTE 3) MA HSMBJ5913B 3.3 113.6 10.0 1.0 500 100.0 HSMBJ5914B 3.6 104.2 9.0 1.0 500 75.0 1.0 749 1.0 HSMBJ5915B 3.9 96.1 7.5 1.0 500 686 25.0 1.0 HSMBJ5916B 4.3 87.2 6.0 1.0 633 500 5.0 1.0 HSMBJ5917B 4.7 79.8 5.0 574 1.0 500 5.0 1.5 HSMBJ5918B 5.1 73.5 526 4.0 1.0 350 5.0 2.0 HSMBJ5919B 5.6 485 66.9 2.0 1.0 250 5.0 3.0 HSMBJ5920B 440 6.2 60.5 2.0 1.0 200 5.0 4.0 397 HSMBJ5921B 6.8 55.1 2.5 1.0 200 5.0 5.2 363 HSMBJ5922B 7.5 50.0 3.0 0.5 400 5.0 6.0 330 HSMBJ5923B 8.2 45.7 3.5 0.5 400 5.0 6.5 300 HSMBJ5924B 9.1 41.2 4.0 0.5 500 5.0 7.0 270 HSMBJ5925B 10 37.5 4.5 0.25 500 5.0 8.0 247 HSMBJ5926B 11 34.1 5.5 0.25 550 1.0 8.4 206 HSMBJ5927B 12 31.2 6.5 0.25 550 1.0 9.1 206 HSMBJ5928B 13 28.9 7.0 0.25 550 1.0 9.9 189 HSMBJ5929B 15 25.0 9.0 0.25 600 1.0 11.4 165 HSMBJ5930B 16 23.4 10.0 0.25 600 1.0 12.2 153 HSMBJ5931B 18 20.8 12.0 0.25 650 1.0 13.7 137 HSMBJ5932B 20 18.7 14.0 0.25 650 1.0 15.2 124 HSMBJ5933B 22 17.0 17.5 0.25 650 1.0 16.7 112 HSMBJ5934B 24 15.6 19.0 0.25 700 1.0 18.2 102 HSMBJ5935B 27 13.9 23.0 0.25 700 1.0 20.6 91 HSMBJ5936B 30 12.5 28.0 0.25 750 1.0 22.8 83 HSMBJ5937B 33 11.4 33.0 0.25 800 1.0 25.1 74 HSMBJ5938B 36 10.4 38.0 0.25 850 1.0 27.4 68 HSMBJ5939B 39 9.6 45.0 0.25 900 1.0 29.7 63 HSMBJ5940B 43 8.7 53.0 0.25 950 1.0 32.7 56 HSMBJ5941B 47 8.0 67.0 0.25 1000 1.0 35.8 51 HSMBJ5942B 51 7.3 70.0 0.25 1100 1.0 38.8 48 HSMBJ5943B 56 6.7 86.0 0.25 1300 1.0 42.6 43 HSMBJ5944B 62 6.0 100 0.25 1500 1.0 47.1 40 HSMBJ5945B 68 5.5 120 0.25 1700 1.0 51.2 36 HSMBJ5946B 75 5.0 140 0.25 2000 1.0 56.0 33 HSMBJ5947B 82 4.6 160 0.25 2500 1.0 62.2 30 HSMBJ5948B 91 4.1 200 0.25 3000 1.0 69.2 26 HSMBJ5949B 100 3.7 250 0.25 3100 1.0 76.0 25 HSMBJ5950B 110 3.4 300 0.25 4000 1.0 83.6 22 HSMBJ5951B 120 3.1 280 0.25 4500 1.0 91.2 20 HSMBJ5952B 130 2.9 450 0.25 5000 1.0 98.8 18 HSMBJ5953B 150 2.5 600 0.25 6000 1.0 114.0 17 HSMBJ5954B 160 2.3 700 0.25 6500 1.0 121.6 15 HSMBJ5955B 180 2.1 900 0.25 7000 1.0 136.8 13 HSMBJ5956B 200 1.9 1200 0.25 8000 1.0 152.0 12 MSC1299.PDF TEST CURRENT I ZT KNEE CURRENT I ZK ISO 9001 CERTIFIED DIM A B C D E F G DIMENSIONS INCHES MILLIMETERS MIN MAX MIN MAX .073 .087 1.85 2.21 .160 .180 4.06 4.57 .130 .155 3.30 3.94 .205 .220 5.21 5.59 .075 .130 1.91 3.30 .030 .060 .76 1.52 .006 .016 .15 .41 Mechanical Characteristics • • • • • Case: Similar to DO-214AA Terminals: Leads tin plated Thermal resistance: 25°C/W (maximum) junction to lead at mounting plane Polarity: Cathode indicated by a band Packaging: Standard 12 mm tape 2500 per 13 inch reel see (EIA Standard RS-481) REV E 10/19/99 HSMBJ5913B thru HSMBJ5956B NOTE 1: No suffix indicates a ±20% tolerance on nominal VZ. Suffix A denotes a ±10% tolerance, B denotes a ±5% tolerance, C denotes ±2% tolerance, and D denotes a ±1% tolerance. VZ is measured with diode TL at 30°C and thermal equilibrium. NOTE 2: Zener impedance is derived from the 1 kHz ac voltage which results when an ac current having an rms value equal to 10% of dc zener current (IZT or IZK) superimposed on IZT or IZK. Pd Maximum Power Dissipation (mW) NOTE 3: Based upon 3 W maximum power dissipation. Allowance has been made for the higher voltage associated with higher currents and temperature. For determination of voltage change with current deviations from IZT see Micro Note 202. T L Lead Temperature at Mounting Plane MSC1299.PDF ISO 9001 CERTIFIED REV E 10/19/99