| 1N1195 SEE PAGE 203 | Silicon 1N1199A-1N1206A Rectifiers 1N1199RA-1N1206RA 1N3670A-1N3673A 1N5331 These diffused junction rectifiers are designed specifically to provide high performance for appli- cations up to 22 amperes Average Forward Current in single-phase applications with repetitive peak reverse voltages of 50 through 1200 volts. High junction temperature rating plus low for- . ward drop and thermal impedance permit high current operation with minimum space requirements. (9) General Electric research, advance development and product design have resulted in a highly efficient rectifying junction. This feature, plus a mechanical design employing high-temperature hard solders and welds for all internal and external joints and seals, which eliminates common sources of thermal fatigue failure, have produced a silicon rectifier with outstanding reliability under all operating conditions. FEATURES: High Voltage @ Uses Hard Solders for Thermal Fatigue Protection e@ Ratings up to 200C Junction Temperature Transient Voltage Ratings 200 Volts Popular DO-4 Outline Above PRV Ratings MAXIMUM ALLOWABLE RATINGS 1N1199A, RA 50 35 50 100 3.0 1N1200A, RA 100 70 100 200 2.5 1N1201A, RA 150 105 150 300 2.25 1N1202A, RA 200 140 200 350 2.0 1N1208A, RA 300 210 300 450 1.75 1N1204A, RA 400 280 400 600 1.5 1N1205A, RA 500 350 500 700 1.25 1N1206A, RA 600 420 600 800 1.0 1N38670A,RA 700 490 700 900 0.9 1N3671A, RA 800 560 800 1000 0.8 1N3672A, RA 900 650 900 1100 0.7 1N36738A, RA 1000 700 1000 1200 0.6 1N5331, R 1200 840 1200 1400 0.5 Average Forward Current (Tc = 150C, single-phase) ...... 00. occ eee ene ett e ene n ee teen en bb nn enes 12 Amperes* Peak One-Cycle Surge Current (non-repetitive), Ipm (surge) ........0.0 cc cece eee eee eee een eee e ene n eset n ee teee 240 Amperes* Minimum I?t Rating (for times > .0008 sec. and < .0083 sec., non-recurrent) 2... cc cee een e eee tne ne eee ee eens 60 Ampere? seconds Maximum Full-Load Voltage Drop (Tc = 150C, single-phase, full-cycle avg.) ....0..0 ccc ccc cece cece eee eee te tence eee 0.55 Volts* Maximum Thermal Resistance, O7-C.. 00. en ne Eee een nee nee ee nee eee e tenn et bee tt eee beens 2.5C/Watt Storage and Operating Junction Temperature, Ty... 1.0.0.0... cc ccc ce ee een ee een nee eee eben nett e as 65C to +200C* DOSED S OO M0) 0 6 <a 12 Lb-in (Min), 15 Lb-in (Max)* 14 Kg-em (Min), 17.5 Kg-em (Mav) * NOTES: (1) Maximum voltages apply with a heatsink thermal resistance of 22C/watt, or less, at maximum rated junction temperature. (2) Maximum voltages apply with a heatsink thermal resistance 7C/watt, or less, at maximum rated junction temperature. (3) Case temperature, Tc, is measured at the center of any one of the hex flats. *Indicates values included in JEDEC Type Number Registration. 2131N1199A-1N1206A 1N1199RA-1N1206RA 1N3670A-1N3673A 1N5331 300 > Le 200 WZ 1090 L o x ig a < a ei | = 10 3 a ; 3 z 5 10 < 2 Ty =200C || T y ie T, 225C 0 i | 1 220 200 g py B a @ 3 8 6 3 3 MAXIMUM ALLOWABLE CASE TEMPERATURE -C a o 20 0 3. MAXIMUM CASE TEMPERATURE VS. AVERAGE FORWARD CURRENT 4. 0 6S 10 15 20 25 30 35 40 INSTANTANEOUS FORWARD VOLTAGE - VOLTS MAXIMUM FORWARD CHARACTERISTICS x J NING NY Ne IN N NY A \ oN 2 4 6 8 10 l2 14 16 18 20 22 24 26 28 30 32 34 36 AVERAGE FORWARD CURRENT - AMPERES FORWARD POWER DISSIPATION - WATTS nN ff OD @ oO 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 AVERAGE FORWARD CURRENT AMPERES 2. FORWARD POWER AS A FUNCTION OF AVERAGE FORWARD PEAK HALF SINE WAVE FORWARD CURRENT- 214 200 CURRENT (T; = +200C) ae << cC > ~ POR SUB-CYCLE SURGE DURATION (LESS THAN I CYCLE) USE CURVE 5 2 4 6 e lo 20 30 640 60 CYCLES AT 60 Hz MAXIMUM SURGE CURRENT FOLLOWING RATED LOAD CONDITIONS300 250 1N1199A-1N1206A 200 1N1199RA-1N1206RA & 1N3670A-1N3673A 1N5331 100 124 RATING- AMPERE2 SECONDS 50 200 iso AMPERES RMS FORWARD SURGE CURRENT- 100 i 2 4 8 678910 PULSE TIME ( m SEC.) 5. SUBCYCLE SURGE FORWARD CURRENT AND I?t RATING FOLLOWING RATED LOAD CONDITIONS NOTE: 0.043" THICK COPPER FIN EMISSIVITY 90%. STUD MOUNTEO DIRECTLY TO FIN. FIN MOUNTED VERTICALLY. FIN SIZE 2x3 21/72 X22 AVERAGE FORWARD CURRENT- AMPERES 72 x42 60 80 100 120 140 AMBIENT TEMPERATURE - C 160 180 = 200 220 La REQUIRED FIN SIZE FREE CONVECTION, SINGLE FIN, UNIMPEDED RADIATION 30 ,. Lt It _1 NOTE: i 26 0.043 THICK COPPER FIN. EMISSIVITY=90%. 5 STUD MOUNTED DIRECTLY TO FIN. < 24 FINS MOUNTED PARALLEL TO AIR FLOW. b AIR VELOCITY * 1000 FT/MIN. ze 2 MINIMUM FIN SPACING = 0.5 INCH. oo Le FIN. SIZE T IF AIR VELOCITY OF 500 FT/MIN 3 Rg 2 3172 ] 16 OseD, MULTIPLY, CURRENT , 8 a FACTORS BY 0.87. z 6 PP _ <a S RO] 2 vex2v2 BQ PQ & 14 a 2 N i ~ 8 io tvexive KN < al e 8 z 6 ae, SN 4 2 0 20 40 #60 80 100 120 140 160 180 200 220 AMBIENT TEMPERATURE C 8. REQUIRED FIN SIZE FORCED CONVECTION, IMPEDED RADIATION AVERAGE FORWARD CURRENT- AMPERES 215 28 26 24 TE: 22 0.043" THICK COPPER FIN. EMISSIVITY= STUD MOUNTED DIRECTLY TO FIN. 20 FIN MOUNTED VERTICALLY. 18 MINIMUM FIN SPACING = 0.5 INCH. FIN SIZE 16 14 32X32 2 0 21/2 X2 172 8 6 1/2 x1 4 2 20 40 60 80 100 120 t40 160 180 200 220 AMBIENT TEMPERATURE -*C 7. REQUIRED FIN SIZE FREE CONVECTION, IMPEDED RADIATION TO USE GRAPHS 6, 7 AND 8 1. Enter graph at vertical axis with desired current multiplied by proper current factor: DC-0.80 36-1.15 T-1.00 69-1.40 2. Intercept desired fin curve 3. Read on horizontal axis the maximum allowable ambient temperature1N1199A-1N1206A - = 1N1199RA-1N1206RA 1N3670A-1N3673A 1N5331 7 A LZ WOTES: (1) CURVE DEFINES TEMPERATURE RISE OF JUNCTION ABOVE y| HEATSINK TEMPERATURE FOR SINGLE LOAD PULSE OF pj DURATION . PEAK ALLOWAMLE OISSIPATION IN RECTIFIER 4 Vj FOR TIME t, STARTING FROM HEATSINK TEMPERATURE, EQUALS 200C (MAX. Tj) MINUS HEATSINK TEMPERATURE DIVIDED BY THE TRANSIENT THERMAL IMPEDANCE. P 200C~T, PEAK a t} (2) FOR OPTIMUM RATINGS AND FURTHER INFORMATION ,SEE || 5 AUBLICATION 200.9 ENTITLED "POWER SEMICONOUCTOR RATINGS UNDER TRANSIENT AND INTERMITTENT LOADS". TUT | VP Lil OO 008 oe Oo Of os 4 6 10 20 $0 WO 80 50 wo THE ( SECONDS rc = NN TRANSIENT THERMAL IMPEDANCE ~- C/WATT = 9. MAXIMUM TRANSIENT THERMAL IMPEDANCE JUNCTION TO HEATSINK OUTLINE DRAWING INSULATING HARDWARE 0 @ 10-32 UNF-2A yt ot go DIA vitel e) are 10-32 STEEL NUT r m CADMIUM PLATED ANODE .078- 080 R LOCK WASHER, le DIA. CADMIUM PLATED STEEL C) COPPER TERMINAL,OI6 i N A + E THICK, TIN PLATED @ BRASS WASHER,035 THICK J NICKEL PLATED COMPLIES WITH @ MICA WASHERS, TWO, .625 EIA REGISTERED OUTLINE DO-4 0.0., .204 1.0., 005 THICK (@) TEFLON WASHER,.270 0.D. 204 1.D.,.050 THICK AVAILABLE UPON REQUEST oD E F J m N ot Ww NOTES: 1. Angular orientation of this terminal is undefined. 2. 10-832 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. 216