s 8 t g = g fy s 8 8 = FAST RECOVERY RECTIFIERS SELECTOR GUIDE n ke 8 ? wn oO Zz e <a a ir] 9 <a Ee a oO > 6 2 20 25 30 100 140 250400 750 Ik AVERAGE CURRENT-AMPERES STANDARD RECTIFIERS SELECTOR GUIDE 1N3987-90 IN4S10-1 IN3289-96/4870 ai70 4180 Aa INHBIA- (2 12 20 20 20 25 35 35 40 = 100 100 I50 160 250 275 400 7401000 1500 AVERAGE CURRENT AMPERES 130RECTIFIERS 5 TO 12 AMPERES 120 1N1199A-1206A JEDEC 1N1612-16 1N1341A-48A 1N3987-90 1N3879-83 1N3670A-73A 1N3889-93 1N5331 GE TYPES SPECIFICATIONS temiav) (A) @ Tc = (C) Max. repetitive peak reverse voltage (V) VRM(rep) 50 1N1341A 1N3879 1N3889 100 1N1342A4 1N3880 +N3890* 150 1N1343A = ~ 200 1N1344A 1N3881 1N3891* 300 1N13454 1N3882 1N3892 400 1N1346A 1N3883 1N3893* 500 1N1347A _ _ 600 1N1348A - ~_ 700 _ _ 800 900 _ 1000 - 1N4510 1200 _ 1N4511 Max. peak one-cycle, non-recurrent surge current (60 Hz sine wave, 1/ 240 phase operation) @ max. rated load , conditions (A) lem (surge) 12 Max. non-repetitive for 1.0 msec t (A2 sec) T Operating junction temperature J range (C) Storage temperature range (C) Max. thermal resistance, junction- to-case (C/W) Max. peak forward voltage drop Vem @ rated Ie, ay) (1 phase opera- tion) (V) @Tc=(C) Ter Max. reverse recovery time {nsec} PACKAGE OUTLINE NO. *JAN & JANTX types available. ** A28 reverse polarity is an A29. The best way to assure reliability in a low-current rectifier pellet is to put it in a package that really protects it. Protects it from shock, humidity, vibration and temperature. And thats just what we do with General Electric's glassivated 1-amp (A14) and 3-amp (A15) rectifiers. Solid glass provides passivation and protection of the silicon pellets P-N junction no organic material is present within the hermetically sealed package. In addition, rigid mechanical support and ex- cellent thermal characteristics are provided by the dual heat sink construction. For high-frequency applications, GE offers a fast-recovery rectifier, the 1-amp A114, with a 200 nsec. max. reverse recovery. 132Silicon | IN1612-16,R Rectifier MEDIUM CURRENT 5A These popular stud mounted 5 ampere rectifiers are the commercial version of the MIL-19500/162 rectifiers. They were designed specifically to meet this military specifica- tion. Hermetic seals, one piece terminals, and all-hard-solder construction are the major features of this design. The all-hard-solder or welded construction is an important fea- ture for the designer to consider. Temperature excursions caused by heating and cooling when the rectifier is used intermittently at maximum rating will cause thermal fatigue in a soft-solder construction. The hard-solder and welded construction provides freedom from thermal fatigue failures. The major features of this design are: Hard-Solder, Thermal Fatigue Free Solid One-Piece Terminal Low Thermal Impedance Transient PRV Ratings electrical ratings and SpeCifiCcAatiONS (60 eps, Resistive or Inductive Load) Max. Allow. Transient Peak Reverse Voltage (Non-recurrent, 5 millisec. max. duration, T; = 0 to 190C) Max. Allow. Peak Reverse Voltage (Repetitive) * Max. Allow. RMS Voltage Max. Allow. DC Blocking Voltage** Max. Allow. Forward Current (Single Phase +150C stud temp.) Max. Allow. Peak One Cycle Surge Current (non-recurrent) I?t Rating [for t greater than .0008 sec. and less than .0083 sec. (non-recurrent) ] Max. Full Load Voltage Drop (Single Phase, Full Cycle Average +150C stud temp.) Max. Leakage Current at Full Load (Single Phase, Full Cycle Average 150C stud temp.) Max. Thermal Resistance (junction to stud) Junction Operating and Storage Temp. Range Stud Torque 1N1612 1N1613 IN1614 IN16154 1N1616 1N1612R IN1613R IN1614R INI615R INT616R 100 200 350 600 800 Volts 50 100 200 400 600 Volts 35 70 140 280 420 Volts 50 100 200 400 600 Volts << __- 5 amperes ___________ <____-----. 150 amperes --_______--____> 25 ampere? sec. min. rating < (T; = 65C to +190C) > <____ .64 Volts _-_-_-____> 1.0 1.0 1.0 1.0 1.0 ma $$$|_ _- 7.0C/Watt __________> << 65C to +:190C ________ Minimum 12 in.-lbs.; Maximum 15 in.-lbs. *Maximum voltages apply with a heat sink thermal resistance of 22C/Watt or less at maximum rated junction temperature. **Maximum voltages apply with a heat sink thermal resistance of 7/Watt or less at maximum rated junction temperature. tAvailable as MIL-S-19500/162 devices. 2211N1612-16, R 1. MAXIMUM AND TYPICAL FORWARD CHARACTERISTICS AVERAGE FORWARD POWER -WATTS INSTANTANEOUS FORWARD CURRENT- AMPERES o 50 V7 i [SL 20 / MAXIMUM { 10 t MAXIMUM AND TYPICAL INSTANTANEOUS FORWARD CHARACTERI 5.0 20 05 uns | IP Ty = 25C ! 02 I I t 0.1 o 5 1O 15 20 25 30 35 40 45 2 200 | o i ~~ TYPICAL>| 100 yy aa Pp Ty = 190C INSTANTANEOUS FORWARD VOLTAGE DROP-VOLTS JUNCTION TEMPERATURE =190C 4 6 8 10 12 14 16 18 20 22 24 AVERAGE FORWARD CURRENT- AMPERES 3. FORWARD POWER DISSIPATION 5.0 AVERAGE FORWARD CURRENT- AMPERES 1000 INI6I6 JUNCTION TEMPERATURE 190C i INI614 INSGIS e Wu = 100 a a g = e z uw oc a 2 oO wy INI614 INIGIS INIGI6 e Ww > uw bo wo JUNCTION TEMPERATURE 25C 3 ut =z t E z i i wn Zz 10 0.1 0 100 200 300 400 $00 600 INSTANTANOUS REVERSE VOLTAGE - VOLTS 2. REVERSE CHARACTERISTICS 24 22 20 o NO MD 20 40 60 80 STUD TEMPERATURE ~ DEGREES CENTIGRADE 4. MAXIMUM ALLOWABLE STUD TEMPERATURE 100 120 '40 160 180 200 222PEAK HALF SINE WAVE FORWARD CURRENT AMPERES 160 200 150 wo = 140 \ w 160 130 & \ wi i20 = N 7 110 J t20 \ z 100 N e \._ | MAXIMUM ALLOWABLE SURGE CURRENT s MAXIMUM FORWARD 90 NX AT RATED LOAD CONDITIONS | 80 SURGE CURRENT FOR SUB.CYCLE NK (NON-RECURRENT) iat (LESS THAN I CYCLE} PULSE 80 & WIDTHS FOR CALCULATING I?+ NX 2 RATING 70 A 2 T, = -65C TO 190C 40 60 < 5 50 ~ a ae 0 oA 6 ! 2 3 4 5 6 7 8 9 30/- FOR SUB-CYCLE SURGE PULSE TIME ~ MILLISECONDS col eeeEr USE caRVe wr 6. SUB-CYCLE SURGE RATING 4. 0 * TO USE GRAPHS 7, 8, 9 % 20 40 60 0 20 407 60 1. Enter graph of vertical axis with desired CYCLES AT 60 GPS. current multiplied by proper current factor: 5. SURGE RATING (1-60 cycles) DC-0.80 39-3.15 1-1.00 6-1.40 2. Intercept desired fin curve 3. Read on horizontal axis the maximum allowable ambient temperature. *7. REQUIRED FIN SIZEFREE CONVECTION, SINGLE FIN, UNIMPEDED RADIATION FIN SIZE NOTE: 0.043 THICK COPPER FIN. EMISSIVITY = 90% STUD MOUNTED "x 3" DIRECTLY TO FIN > FIN MOUNTED VERTICALLY. Tisza" x1 172" 3 20 40 60 80 {00 120 140 \60 (80 200 AMBIENT TEMPERATURE C AVERAGE FORWARD CURRENT-AMPERES *8. REQUIRED FIN SIZEFREE T T T T T T | NOTE : 0,043" THICK COPPER FIN EMISSIVITY = 12 CONVECTION, | DED 90%,PAINTED OR ANODIZED FIN. STUD , IMPEDE L {FIN SIZE MOUNTED DIRECTLY TO FIN. FIN RADIATION 10 = 3x 3" MOUNTED VERTICALLY. MINIMUM FIN SPACING = 1/2" AVERAGE FORWARD CURRENT- AMPERE a 8 Wy gt 2"x 2 Pn ee el [or iv2"x tise" feeeetaeete 4 =a a] _] 2 === e 20 40 60 80 100 120 140 i60 180 200 AMBIENT TEMPERATURE C w (8 * wi T T T T T 9. REQUIRED FIN SIZEFORCED a 6 NOTE: 0.043" THICK COPPER FIN. EMISSIVITY a FIN SIZE =90% STUD MOUNTED DIRECTLY TO FIN. CONVECTION, IMPEDED = 14 ' FINS MOUNTED PARALLEL TO AIR FLOW. : re 3" XS" vy on AIR VELOCITY =1000 FT/MIN. RADIATION = \2 ee ae MINIMUM FIN SPACING 1/2" | _ _ IF AN AIR VELOCITY OF 500 FT/MIN IS a) in USED, MULTIPLY CURRENT FACTORS BY 0.88 4 oO en! _ 2 ep live" x 11/2" mend a = 6 Pee, s = a4 ~ la oO < 2 re > 0 < 20 40 60 80 100 120 140 160 180 6200 AMBIENT TEMPERATURE C 223LET | MAXIMUM TRANSENT THERMAL RESISTANCE fA TRANSIENT THERMAL RESISTANCE ~ C/ WATT NOTE: CURVE DEFINES TEMP RISE OF JUNCTION ABOVE HEAT SINK FOR SINGLE LOAD PULSE OF DURATION t. PEAK = ALLOWABLE DISSIPATION IN RECTIFIER FOR TIME t, IF STARTING FROM HEAT SINK TEMP EQUALS 200C (MAX Ty) MINUS MAXIMUM HEAT SINK TEMP DIVIDED BY THE TRANSIENT THERMAL RESISTANCE > 1, Pp 200C ~ "HEAT SINK ; PEAK = ee FOR OPTIMUM RATINGS AND FURTHER INFORMATION, SEE r PUBLICATION ECG-469 ENTITLED "POWER SEMICONDUCTOR RATINGS UNDER TRANSIENT AND INTERMITTENT LOADS { tt Lill fot tpi | yyy iis OO 002 008 01.02 2 6 10 20 80 100 20 30. 00 SECONDS 10. MAXIMUM TRANSIENT THERMAL RESISTANCE DIRECTION OF FOWARD CURRENT FLOW: >+ REVERSE POLARITY + FOWARD POLARITY @ 0-32 STEEL NUT CADMIUM PLATED @ LOCKWASHER, CADMIUM PLATED STEEL COMPLIES WITH EIA REGISTERED OUTLINE DO-4 OUTLINE DRAWING INSULATING HARDWARE KIT * OD @ O78 DIA. i @ ea O80 R @ COPPER TERMINAL, O16 THICK, TIN PLATED @BRASS WASHER,O35 THICK NICKEL PLATED @MICA WASHERS, TWO, .625 0.0, .204 1.0., 005 THICK @ TEFLON WASHER,270 0.0. .204 1.D., 050 THICK AVAILABLE UPON REQUEST INCHES MILLIMETERS SYMBOL NOTES MIN, MAX. | MIEN, MAX. A 405 10.29 oD 424 10.77 E 424 .437 [10.77 11.10 F .075 175 1,91 4.45 J .800 20.32 m .250 6.35 1 N .422 453 10,72 11.51 ot .060 1.52 WwW 2 NOTES: 1, Angular orientation of this terminal is undefined. 2. 10-32 UNF-2A, Maximum pitch diameter of plated threads shall be basic pitch diameter (.1697, 4.29 MM). Ref: (Screw thread standards for Federal Services 1957) Handbook H28, P1 224