MICROSEMI CORP SHE D M@ 6115865 000c108 1b5 Mm MSC NILL3016B thru NMLL3051B Description / Features LEADLESS PACKAGE FOR SURFACE MOUNT EQUIVALENT TO IN3016 THRU 1N3051 IDEAL FOR HIGH DENSITY MOUNTING VOLTAGE RANGE: 6.8 TO 200 VOLTS HERMETICALLY SEALED, DOUBLE-SLUG GLASS CONSTRUCTION METALLURGICALLY ENHANCED CONTACT CONSTRUCTION AVAILABLE IN JANTX OR JANTXV EQUIVALENTS TO MIL-S-19500/115 WITH MLX OR MLXV PREFIX. Maximum Ratings 50 Watts DC Power Rating (See Power Derating Curve) -65C to +200C Operating and Storage Junction Temperature. Power Derating 10.0 mW/C above 50C. Forward Voltage @ 200 mA is less than 1.50 Volts. Application This surface mountable zener diode series is similar to the IN3016 thru IN3051 registration in the DO-13 package except that it meets the new JEDEC surface mount outline DO-213AB. It is an ideal selection for applications of high density and low parasitic requirements. Due to its glass hermetic qualities, it is also suited for high reliability applications. This can be acquired by a source control drawing (SCD), or simply by ordering device types with a MLX or MLXV prefix for equivalent screening to JANTX or JANTXV. *Electrical Characteristics @ 25 C NOMINAL| ZENER MAXIMUM MAXIMUM|MAXIMUM| TYPICAL ZENER TEST |ZENER IMPEDANCE| ZENER REVERSE |TEMP. COEFF. VOLTAGE | CURRENT (Note 2) CURRENT LEAKAGE | OF ZENER Vp @l 1 CURRENT | VOLTAGE + pype | 2 @!zt ZT Ze ZzM NUMBER |_Nete 221 @ lat] bye\ma (Note 3) OV ey (Note 1) VOLTS mA OHMS | OHMS | mA mA nA_| Volts ke MLL3016B 68 37 3.5 750 11.0 140 150 $2 -040 MLL3017B 75 34 4 750 | S 125 100 37 045 MLL30188 8.2 31 45 750 | 5 115 50 62 048 MLL30198 9.1 28 5 750 | 5 | 105 25 | 69 850 MLL30208 | 10 25 7 750 | .25] 95 2s | 7.6 .055 MLL3021B] 11 23 8 750 | .25] 85 10 | 34 060 MLL3022B | 12 21 3 750 | 25 80 10] 9.1 065 MLL3023B 13 19 10 1000 | .25| 74 10 9.9 .065 MLL3024B | 15 7 14 750 | .25 63 10 | 44.4 .070 MLL3025B | 16 15.5 16 750 | .25] 60 10 | 12.2 .070 MLL3026B 1B 14 20 750 | 25] 52 10 | 13.7 .075 MLL3027B 20 12.5 22 1000 | .25| 47 10 | 15.2 075 MLL30288 ] 22 11.5 | 23 750 | .25] 43 10 | 16.7 .080 MLL30296 24 10.5 25 750 | .25 4a 10 | 18.2 0380 MLL3036B 27 95 35 750 7 .25] 34 10 | 20.6 085 MLL3031B 30 8.5 40 1000 | .25] 31 10 | 22.8 085 MLL3032B 33 7.5 45 750 | .25) 238 10 | 25.1 085 MLL3033B 36 7.0 50 750 | .25 26 10 | 27.4 085 MLL3034B 39 65 60 750 | .25) 23 10 | 29.7 090 MLL3035B 40 6.9 70 1000 | .25) 21 10 | 32.7 090 MLL3036B ) 47 S5 80 1500 | .25] 19 10 | 35.8 -090 MLL3037B 51 5.0 95 1500 | .254 18 10 | 38.8 -090 MLL30388 56 45 110 2000 | .25) 17 10 | 42.6 .090 MLL3039B 62 40 125 2000 | .25) 15 10 | 47.1 090 MLL3040B 68 37 150 2000 | .25| 14 10 | 51.7 030 MLL3041B) 75 3.3 | 175 2000 | .25) 12 10 | 56.0 030 MLL3042B | 82 3.0 | 200 3000 | .25 oa 10 | 62.2 990 MLL3043B 94 2.8 250 3000 | .25| 10 10 | 69.2 090 MLL3044B | 100 2.5 350 3000 | .25) 9.0 10 | 76.0 090 MLL30458 | 110 23 | 450 4000 | .25 83 10 | 83.6 095 MLL3046B | 120 2.0 550 4500 | .25 8.0 10 | 91.2 095 MLL30478 | 130 1.9 700 5000 | .25) 6.9 10 | 98.8 095 MLL3048B | 150 1.7 11000 6000 | .25 5.7 10 1114.0 095 MLL30498 | 160 1.6 |1100 6500 |} .25| 54 10 121.6 095 MLL3050B | 180 1.4 1200 7000 | .25| 49 10 1136.8 -095 MLL3051B | 200 1.2 [1500 8000 | .25| 46 10 | 152.0 -100 * JEDEC Registered Data for 1N3821 thr: 38304 equivelerts. ++ When applicabe, replace MLL pret w.th MLX of MLXY for 3821A 10 38284, ~ Not JEDEC Data. MICROSEMI CORP SSE D MM 6115865 0002109 OTL MNSC 1N3016B thru 1N3051B NOTE 1: Zener impedance is measured at 2 points to insure a sharp knee on the breakdown curve and to eliminate unstable units. A curve showing the variation of zener impedance vs. zener current for four representative types is shown in Figure 2. Suffix A signifies a +5% tolerance on nominal zener voitage. If tighter tolerance is required, consult factory. Zener Voltage (Vz) is measured with junction in thermal equilibrium with still air at a temperature of 25C. The test currents (iz7) at nominal voltages provide NOTE 3: a constant 0.25 watts for this device series. These JEDEC values of Iz, May be exceeded by 50% fo NOTE 2: the surface mount package shown. Further power . capability exists by heatsinking for end cap The zener impedance is derived when a 60 cycle ac temperature control (Tec) as shown in Figure 5. current having an rms value equal to 10% of the dc zener current (I77 or Iz) is superimposed on I7tz OF IzK. Loo STEADY STATE POWER DERATING , RMS Value Of 60 CPS Test 200 Set Equal To 10% Of Voltage Temperature "5 a Coefficient % C a a 150 3 z z 3 a 1235 2 g a Ss o 3 3 5 100 E = = 2 5 3 E 8 10 e o k N 25 0 1 9 25 50 75 100 125 4150 175 200 Temperature (C) J 10 10 100 'zy Zener Current (ma) FIGURE 3 Typical Zener Voltage . Temperature Coeff. vs. Zener Voltage FIGURE 2 Typical Zener Impedance vs. P g Zener Current For Types Shown 1000 STEADY STATE POWER DERATING 40 35 30 100 Ny So Py Power Dissipation (WATTS} a a Capacitance (pf) 3 o oO a 0 25 50 7S" 100 125 150 175 200 Temperature ('C) 1 1.0 10 100 1000 Vp Reverse Voltage (VOLTS) FIGURE 5 Power Derating Curve FIGURE 4 Typical Capacitance vs. Reverse Voltage Where T, is Ambient Temperature And Tec is End Cap Temperature