Numerical Index 1N4348 -1N4405 RECTIFIERS ZENER DIODES =z = Ss V V | J ., |z(nom) *) Tot = = R FE R surge = pace | == | Wolts) | (olts) (ma) | (Amps) | z(min) Tay] v.% | Po TYPE | | REPLACEMENT & NUMBER | & = z= s 1N4348 S | 1N4761 2-29 zD 1. 1N4348A | S | 1N4761 2-29 ZD 1. 1N4348B Ss 1N4761A 2-29 ZD 75% 5.0 1.0W 1N4349 S | 1N4762 2-29 ZzD 82* 20 | 1.0W 1N4349A 8 1N4762 2-29 ZD 82* 10 1.0W 1N4349B 1N4762A 2~29 ZD 82% 5.0 1.0W 1N4350 $ 1N4763 2-29 ZD 91* 20 1.0W 1N4350A S 1N4763 2-29 ZD 91* 10 1.0W 1N4350B ; S_ } 1N4763A 2-29 2D 91* 5.0 | 1.0W 1N4351 S | 1N4764 2-29 ZD 100* 20 | 1.0W 1N4351A | S | 1N4764 2-29 ZD 100* 10 | 1.0W 1N4351B | S| 1N4764A 2-29 Z2D 100* 5.0 | 1.0W 1N4352 s | 1M110zS10 2-29 zD 110* 20 | 1.0W 1N4352A 8 1M110ZS10 2-29 110* 10 1.0W 1N4352B | S_ | 1M110ZS5 2-29 110* 5.0 | 1.0W 1N4353 S | 1M120zS10 2-29 120* 20 | 1.0W 1N4353A | S | 1M120ZS10 2-29 120* 10 | 1.0W 1N4343B | S | 1M120zS5 2-29 120* 5.0 | 1.0W 1N4354 8 1M130Z810 2-29 130* 20 1.0W 1N4354A | S| 1M1L30zS10 2-29 130* 10 } 1.0W 1N4354B | S | 1M130z85 2-29 130% 5.0 | 1.0W 1N4355 S | 1M150zS10 2-29 150* 20 | 1.0W 1N4355A | S| 1M150zS10 2-29 150* 10 } 1.0W 1N4355B s 1M150ZS5 2-29 150* 5.0 1.0W 1N4356 Ss 1M1602S10 2-29 160* 20 | 1.0W 1N4356A s 1M160ZS10 2-29 160* 10 T.OW 1N4356B S 1M1602S5 2-29 160* 5.0 1.0W 1N4357 s 1M1802510 2-29 180* 20 | 1.0W 1N4357A | S 1M180ZS10 2-29 180* 10 | 1.0W 1N4357B | S 1M180ZS5 2-29 180* 5.0 | 1.0W 1N4358 S| 1M200zZS10 2-29 200% 20 1.0W 1N4358A | S| 1M200zS10 2-29 200% 10 | 1.0W 1N4358B | S | 1M200ZS5 2-29 200* 5.0 | 1.0W 1N4359 8 1N4360 Ss 1N4370A 2-11 2.52 5.0 10.25W 1N4361 S | 1N4007 3-24 1N4362 Ss 1N4363 8 1N4364 s 1N4002 3-24 1N4365 S | 1N4003 3-24 1N4366 S | 1N4004 3-24 1N4367 S | 1N4004 3-24 1N4368 S 1N4005 3-24 1N4369 s 1N4005 3-24 1N4370 s 2-11 2.4% 10 0.4W 1N4370A S 2-11 2.4% 5.0 0.4W 1N4371 s 2-11 2.7% 10 0.4W 1N4371A S 2-11 2.7% 5.0 0.4W 1N4372 s 2-11 3.0* 10 | 0.4W 1N4372A | S 2-121 3.0% 5.0 | 0.4W 1N4373 s 1N4374 s 1N4375 Ss 1N4376 S 1N4377 s R 25K 30 0.75 O.1 50 1N4378 S Photosensitive Device; I(dark) = 10 nA, Sensitivity = 9.0 mA @ VcE = 5.0 V, H = 9.0 mW/om2 1N4379 s Microwave S-band Detector ; 1N4380 8 cs 1N4381 G HS 1N4382 cs 1N4383 Ss 1N4003 3-24 R 1.3 1N4384 8 1N4004 3-24 R 1.3 1N4385 Ss 1N4005 3-24 R 1.3 1N4386 Varactor Diodes, See table on page 1-86 thru | | | ! 1N4387 Varactor Diode, See table on page 1-86 1N4388 1N4389 s 1N4390 s 1N4391 s 1N4392 s 1N4393, A,B I I thru Tunnel Diodes, See table on page 1-92 1N4399 , A,B 1N4400 s 1N4736 2-29 ZD 6.8% 20 1.0W 1N4401 s 1N4737 2-29 ZD 7.5% 20 { 1.0W 1N4402 8 1N4738 2-29 ZD 8.2* 20 1.0W 1N4403 Ss 1N4739 2-29 ZD 9.1% 20 1.0W 1N4404 Ss 1N4740 2-29 ZD 10* 20 1.0W 1N4405 s 1N4741 2-29 ZD 11* 20 1,0W RRectifier, RD-Reference Diode, ZO~Zener Diode, GPGeneral Purpose, HCHigh Conductance (== 20mA@=1V), HSHigh Speed Switch (Max t,. < 0.38), CSHigh Conductance, High Speed Switch, MSMedium Speed Switch, PAParametric Amplifier, SPSpecial Purpose. 1-69Numerical Index VARACTOR DIODES INDEX IN950-1N4793D CAPACITANCE MULTIPLIER PERFORMANCE r T Voltage Po , TYPE PAGE cI cimay)! Range | BVrp| O @ f Max @ Min Min NUMBER * few Rs P. t P f Cr 1 Tol C (min) T 25C in in out out \ iM te PFs % 1 Volts | Voits | Volts GHz | Ohms | Watts | Watts! GHz | Watts | GHz | % 1N950 35 2.51 14.0 J130 130 | 7.0 ]0.05 1N951 50 2.4/4.0 | 80 | 80] 7.0 ]0.05 | 4.5 1N952 70 2.43 }4:0 | 60 | 60 | 7.0 Jo.05 | 2.1 1N953 100 2.414.0 | 25 | 25] 7.0 Jo.05 | 1.5 1N954 35 2.51 14.0 | 25 | 25 | 7.0 }0.05 LN955 50 2.4 [4.0 | 25 | 25 | 7.0 10.05 | 5.0 1N956 70 2.43 }4.0 |} 25 | 25 | 7.0 $0.05 | 201 1N2627 2.75 1.75 | 90 {5.0 |5.0] io] 1.0 1N2628 2.5 1.5 | 015.0 ]5.0] 14] 1.0 1N3182 33 20 | 65 10.05 | 3.0 | 0.163 1N3488 56 15 | 7.0 }0.05 1N3551 50 | 6.0 1.38 14.0 ]8.0 | 11 | 30 [0.05 1N3552 21.5 | 6.0 22 | 25 10.05 1N3554 12 100 1N3555 20 100 | 60 |0.05 1N3556 47 100 | 50 |0.10 1N3557 24 210 | 75 |0.05 1N3627 21.3 2.45 [4.0 | 20} 20] 25 }0.05 1N3628 50 2.5/4.0 | 20 | 20 | 30 |0.05 1N3770 2.0 5.5 1N3945 20 1.5 14.0 | 20 | 20 | 7.0 J0.05 0.50 1N3946 71 9.0 | 7.0 |0.05 0.50 1N3947 70 9:0 | 9/0 |0.05 1N4091 4.2 2.5 6.0 0.30 1N4386 | 12-5 50 250 | 75 |0.05 | 1.5 25} 50 10.05} 32.5] 0.15] 65 1N4387 | 12-7 35 150 | 150 [0.05 | 1.5 201 30 [0.15! 15| 0.45! 50 1N4388 | 12-8 20 100 | 200 }o.05 | 2:0 ro] 20 | 0.5{ 11] 1.0] 55 1NG598 22 4.04 14.0 | 90 | 90 | 50 ]0.05 0.25 1N4599 47 5.0 ]2.0 }100 {110 | 100 Jo.05 | 100 | 0.50 1N4609 22 2.64 14.0 | 35 | 35 | 60 |0.05 0.25 1N4786 6.8 | 20]2.56] o |4.0] 25] 15 |o.05 0.50 1N4786A 6.8 | 1012.56 | o|4.0 | 25 | 15 [0.05 0.50 1N4786B 6.8 | 5.0/2.56] o f4.0 | 25] 15 ]o.05 0.50 1NG786C 6.8 | 2.012.56] o]4.0} 25] 15 }o.05 0.50 1N4786D 6.8 | 1.0|2.56] o]4:0}] 25] 15 |0.05 0.50 1N4787 g.2| 20]2.56] 014.0] 25] 15 }0.05 0.50 IN4787A 3.2 | 10|2.56| 0 }4.0] 25] 15 |0.05 0.50 1N4787B 8.2 | 5.0]2.:56| o}4:0] 25] 15 }0.05 0.50 1N4787C g.2 | 2.0 (2.56 | 0 |4.0 | 25 | 15 [0.05 0.50 1N4787D 3.2] 1.0 }2.56] 074.0] 25] 15 }0.05 0.50 1N4788 10} 20]2.50] o |4.o | 25] 15 |0.05 0.50 1N4788A io | 1012.50] o |4:0 | 25} 15 |0.05 0.50 1N4788B 10 | 5.0]2.50] 6 |4:0 | 25] 15 {0.05 0.50 1N4788C io | 2.0}2.50] 0 |4:0 | 25] 15 [0.05 0.50 1N4788D 10 | 1.0/2.50] 0 |4:0 | 25] 15 [0.05 0.50 1N4789 12] 20]2.49}] O}4.0] 25] 15 ]0.05 0.50 1N4789A 12] 10/2.49 | 0 |4:0 | 251} 15 10.05 0.50 1N4789B 12 | 5.0{2.49] 0 44.0] 25] 15 |0.05 0.50 1N4789C 12 | 2.0]2.49] o|4.0] 25] 15 Jo.05 0.50 1N4789D 12} 1:0]2:49 | o|f4:o] 25 | 15 [0.05 0:50 1N4790 is | 2012.49] of4.0] 25] 15 |0.05 0.50 1N4790A 15) 10}2.49} 044.0} 25) 15 )0.05 0.50 1N4790B 15 | 5.0/2.49] o]4.0] 25] 15 10.05 0:50 1N4790C 15 | 210 ]2149 | o |4io | 25] 15 | 0.05 0150 1N4790D 15] 1:0]2.49] o |4io}] 25} 15 | 0.05 0:50 1N4791 18} 20|2.48] o|}4.0] 20} 15 ]0.05 0.50 1N4791A ig} 10/2.48| 0 |]4:0] 20] 15 |0.05 0:50 1N4791B 1g} 5.0|2.48] o|4.0] 20] 15 ]0.05 0.50 IN4791C 1g} 2:0}2.48} 0 |4:0] 20} 15 )0.05 0.50 1N4791D 18] 1.0]2.48| o}4:0] 20] 15 |0.05 0.50 1N4792 22| 2012.46] 0]4.0{ 20] 15 }0.05 0.50 1N4792A 22 | 10/2.46| oO|]4.0] 20] 15 }0.05 0.50 1N4792B 22 | 5.0]2.46| o}4:0] 20/ 15 |0.05 0.50 1N4792C 92 | 2:0|2146] o|4:0] 20] 15 }0.05 0.50 1N4792D 22 | 1.0}2.46 | o|4.0 | 20} 15 |0.05 0.50 1N4793 27| 20|2.46] o|4:0] 20] 15 }0.05 0:50 1N4793A 27} 1012.46] o|}4.0} 20] 15 |0.05 0.50 1N4793B 27 | 5.0]2.46] 014.0] 20] 15 10.05 0.50 1N4793C 27} 2.0/2.46] 0 f4.0] 20] 15 10.05 0:50 1N4793D 27 | 1:0)2.46] o|4:0] 20] 15 }0.05 0.50 1-87Voltage Variable Capacitance Diodes 1v4387 a= 150 Pou = 18WTyp @ 450 MHz (MV1804) n == 60% Typ (four = 450 MHz) Silicon varactor diode for high-power frequency mul- CASE 49 tiplication applications. cathode connected to stud MAXIMUM RATINGS Rating Symbol Value Unit Reverse Voltage Ve 150 Vde RF Power Input Pa 40 Watts Total Device Dissipation @ To = 76C Py 20 Watts Derate above 75C 200 mW/C Operating and Storage Junction Temperature Range Typ Tote -65 to +175 C ELECTRICAL CHARACTERISTICS (1c = 25C unless otherwise noted) Characteristic Symbol Min Typ Max Unit Reverse Breakdown Voltage BV, Vdc (Ip = 10 wade) 150 200 - Series Resistance Rg Ohms (Vp = 6.0 Vdc, f = 50 MHz) - 1.0 1.5 Junction Capacitance cy pF (Vp = 6.0 Vdc, f = 50 MHz) - 25 35 Figure of Merit Q - (Vp = 6.0 Vde, f = 50 MHz) 150 200 - FUNCTIONAL TESTS Power Output Tripler Circuit Pout 15 18 - Watts PP, =30W, f. = 150 MHz, in in Efficiency fout = 450 MHz q 50 60 - % POWER OUTPUT versus OUTPUT FREQUENCY SERIES RESISTANCE AND FIGURE OF MERIT FOR HARMONIC TRIPLING versus REVERSE VOLTAGE 1 Pry = 40 WATTS 2 2 Px = 30 WATTS -- 1000 & = = 3 5 = = a u. 800 = 3 Pin = 20 WATTS S 2 5S 2 ws & 3 600 a = = 3 - a ~ Piy = 10 WATTS = 400 a 200 0 0 100 200 400 600 800 0 20 40 60 80 100 120 140 160 180 200 tour OUTPUT FREQUENCY (MHz) V,, REVERSE VOLTAGE (VOLTS) 12-7