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 20 TO 25 AMPERES : 1N1183-90 JEDEC 1N3765-68 | 1N5332 1N1183A- 90A GE TYPE SPECIFICATIONS Max. average forward lem(Av) current (1 phase oper- ation) (A) @Tc= (C) Max. repetitive peak VAM(rep) reverse voitage (V) 50 IN1191A / i 1N1183 oe 1N1183A 1N1192A 1N1184* . 1N1184A 1N1193A : 1N1185 ae 1N1185A 1IN1194A 1N1186* 1N1186A IN1195A = : 1N1187 : 1N1187A IN1196A | Nig 1N1188* / | 1n1188A 1N1197A L : 1N1189 1N1189A ae 600 1N1198A 30.0: 1N17190* 700 . 1N3765 800 oe 1N3766 900 ee ce 1N3767 1000 o ee 1N3768 1200 26) = 1N5332 Max. peak one cycle, ; non-recurrent surge cur rent (60 Hz sine wave, 1 phase operation) @ max. rated load con- ditions (A) Max. 12 t rating (non- repetitive for 8.3 msec) A2 sec Operating junction tem perature range (C) ce sence le (surge) Storage temperature range (C) Max. therma! resistance junction-to-case (C/W) | Max. peak forward voltage drop @ rated le(avy) (1 phase opera- tion) (V) @ Tc =(C) Max. reverse recovery me (nsec) PACKAGE OUTLINE NO. * JAN & JANTX types available. 133 Typical AUNANATULUNAUULASilicon 1N2154-60,R Rectifiers Medium Current These stud mounted diffused junction silicon rectifiers are de- signed for all rectifier applications in the 2 to 30 ampere range. A high junction temperature rating and an extremely low for- ward voltage drop and thermal impedance permit high current operation with minimum space requirements. These rectifiers may be mounted directly to a chassis or a fin or may be elec- trically insulated from the heat sink by using the mica washer insulating kit Versatility is further increased by the availability of a negative polarity unit (stud is anode), described by the suffix R appearing after the type number. The use of positive and negative polarity units facilitates the construction of bridge circuits and permits the use of either a positive or negative heat sink in half-wave and center-tap applications. Stacked fin assemblies (4JA8511 series) are also available. General Electric research, advance development and product design have resulted in a highly efficient rectifying junction. This feature, plus a mechanical design employing high tempera- ture hard solders and welds for all internal and external joints and seals, which eliminates common sources of thermal fatigue failure, has produced a silicon rectifier with outstanding reli- ability under all operating conditions. electrical ratings and Specifications (60 eps, Resistive or inductive Load) 1N2154 1N2155 1N2156 1N2157 1N2158 1N2159 1N2160 Max. Allow. Transient Peak Reverse 1N2154R 1N2155R 1N2156R 1N2157R 1N2158R 1N2159R 1N2160R Voltage (Non-Recurrent 5 millisec. max. duration) 100 200 350 450 600 700 800 volts Max. Allow. Peak Reverse Voltage* (Repetitive) 50 100 200 300 400 500 600 volts Max. Allow. RMS Voltage 35 70 140 210 280 350 420 volts Max. Allow. DC Blocking Voltage** 50 100 200 300 400 500 600 volts Max. Allow. Forward Current (Single Phase 145C stud temp.) <___- 25 amperes __________> Max. Allow. Peak One-Cycle Surge Current <____-_____ 400 amperes ______""___> I2t Ratings (for fusing) (for t = .0008 < t < .0083 seconds) <__________. 250 ampere? sec. _______-_ Max. Full Load Voltage Drop (Full Cycle Average 145C stud temp.) 0.60 volts me Max. Leakage Current at Full Load (Full Cycle Average, Single Phase 145C stud temp.) 5 4.5 4 3.5 3 2.5 2 ma Max. Thermal Resistance (junction to stud) 15 C/ watt __ Junction Operating and Storage Temperature Range <_ 65C to +200C __________> *Maximum voltages apply with a heat sink thermal resistance of 12C /watt or less at maximum rated junction temperature. **Maximum voltages apply with a heat sink thermal resistance of 5C/watt or less at maximum rated junction temperature. ***For RMS surge current ratings in sub-cycle region (less than one cycle) as a function of t, see Curve IX. mechanical specifications Maximum Stud Torque. ee ee oven eee enne cenit neneneeneenuneneeoneeneeene 30 inch-pounds Mechanical Shock... MIL-STD-202, Method 202 500G for 1 millisec. 5 times in each of 3 directions Vibration (Fatigue) __.... caeneeee nee Any frequency between 45-100 cps with constant peak acceleration of 10G Vibration (High Acceleration) 2.202. eeeecce cee eee 100 to 1000 cps with constant peak of 10G Centrifuge 5000G Moisture Resistance MIL-STD-202, Method 106 Temperature Cycling 2 oe ene 5 eycles, ~65C to +175C 2251N2154-60, R 300 200 100 8 3 INSTANTANEOUS FORWARD CURRENT AMPERES TYPICAL MAXIMUM MAXIMUM ANO TYPICAL INSTANTANEOUS FORWARD VOLTAGE DROP FORWARD POWER DISSIPATION- WATTS Ty = 200C Ty = 25C 5 10 LS 20 25 3.0 INSTANTANEOUS FORWARD VOLTAGE DROPVOLTS 1. MAXIMUM AND TYPICAL FORWARD CHARACTERISTICS 25 30 30 [ 0 HA . Ya ZL. JUNCTION / TEMPERATURE = 200C . ML. fo A, AVERAGE POWER DISSIPATION 5 AS A FUNCTION OF OS FORWARD CURRENT IN Qo 5 io i) 20 25 30 AVERAGE FORWARD CURRENT -AMPERES 3. FORWARD POWER DISSIPATION MAXIMUM LEAKAGE CURRENT < JUNCTION TEMPERATURE 25C TO 200C = 20 e z Ww 3 IN21S4 O15 IN2154R w IN2I55 2 IN2ISSR 2 / IN2I56 z IN2I56R lO A OUTLINE DRAWING > IN 2157 S IN2IS7TR < _- INZI58 $< E WA, IN2158R IN2I59 DIRECTION OF EASY CONVENTIONAL = 5 i> i i i CURRENT FLOW -~IN2154-IN2i60 wo ee z CO [| IN2I60 DIRECTION OF EASY CONVENTIONAL ae INZIGOR CURRENT FLOW-IN2I54R ~IN2i60R 6 rele) 200 300 oOo 500 00 4 6 700 800 INSTANTANEOUS INVERSE VOLTAGE- VOLTS 4-28 NF-2A 150 DIA 440 2. REVERSE CHARACTERISTICS .220 Bi Bia 128) | aa MIN. ANS col le 452 | 450 425 wax" a 687 700 677 [" MIN 1000. MAX 226 COMPLIES WITH EIA REGISTERED OUTLINE DO-5c MAXIMUM ALLOWABLE STUD TEMPERATURE - 1N2154-60, R NOT E WHEN CELLS ARE OPERATED IN PARALLEL, REDUCE RATING SN BY 10%. PER FIGURE 5 SURGE FIN oS )- RATING (CHAR T NO. 6} at FOR SUB-CYCLE SURGE URATION, ~ | (LESS THAN | CYCLE) USE I 220 ig 200 i 500 a | = T~_ t hs ba 5 180 z tad NX SN oo # 400 -_] s ROS = o oO 160 ~ 4 SS NY z 300 o a NK oc w 140 6 6UN z IN = XQ w 200 z 120 N N Nig MAXIMUM ALLOWABLE STUD TEMPERATURE 3g 4 AS A FUNCTION OF FORWARD CURRENT = 100 az 100 wl a - 7 } | 0 5 10 15 20 25 30 35 AVERAGE FORWARD CURRENT - AMPERES 4. MAXIMUM ALLOWABLE STUD TEMPERATURE FORWARD SURGE CURRENT-AMPERES RMS 2 4 6 8 10 CYCLES AT 60 CPS 20 4 5. MAXIMUM ALLOWABLE NON-RECURRENT SURGE CURRENT AT RATED LOAD CONDITIONS 400 500 WS MIN. 12t RATING 250 AMP2 SEC. \ 300 IN 200 100 SJ MAXIMUM ALLOWABLE SURGE CURRENT IN RMS AMPERES i | ~ ~~] a J 2 4 6 8 10 20 3040 60 80 100 PULSE TIME MILL! SECONDS 6. SUB-CYCLE SURGE RATING 227 200 400 600 8001000 oO 601N2154-60, R 30 Nn o T T MAXIMUM FORWARD CURRENT VS AMBIENT TEMPERATURE FOR VARIOUS FIN SIZES SINGLE FIN, UNIMPEDED RADIATION. 2"x2 3 A AVERAGE FORWARD CURRENT~AMPERES a NOTE: 1/16" THICK COPPER FIN \ \ \ 5st EMISSIVITY=90% STUD MOUNTED DIRECTLY TO FIN. FIN MOUNTED VERTICALLY 40 80 120 60 20 AMBIENT TEMPERATURE~*C *REQUIRED FIN SIZE-FREE CONVECTION SINGLE FIN, UNIMPOSED RADIATION 30 T | MAXIMUM FORWARD CURRENT VS. AMBIENT TEMPERATURE FOR VARIOUS FIN SIZES, FORCED hoe CONVECTION, FIN IN STACK, 25 xs IMPEDED RADIATION, 3"x3 wn :" - 2"x2" N I + ; 2s Dy a a 3 wi eo 2 A & 10 z NOTE: I/16" THICK SQUARE COPPER NS EMISSIVITY*90% STUD MOUNTED DIRECTLY TO FIN. FINS MOUNTED PARALLEL TO AIR FLOW. AIR VELOCITY # 1000 FT/MIN. MINIMUM FIN SPACING ~ | 1/4" \ FORCED CONVECTION, 40 160 200 80 120 AMBIENT TEMPERATURE ~C 9. *REQUIRED FIN SiZE IMPEDED RADIATION 228 TRANSIENT THERMAL RESISTANCE -*C/WATT AVERAGE FORWARD CURRENT ~ AMPERES 30 25 20 | (MPEOED RADIATION MAXIMUM FORWARD CURRENT VS. AMBIENT TEMPERATURE FOR VARIOUS FIN SIZES- FREE CONVECTION, FIN IN STACK, Y, SX \\ Dy NOTE: re THICK COPPER FIN-EMISSIVITY =90% STUD MOUNTED DIRECTLY TO FIN FIN MOUNTED VERTICALLY MINIMUM FIN SPACING = | 7a" N 9 40 80 120 AMBIENT TEMPERATURE ~C 200 8. *REQUIRED FIN SIZE FREE CONVECTION, *TO USE GRAPHS 7, 8 AND 9 IMPEDED RADIATION Enter graph at vertical axis with desired current multiplied by proper current factor: DC-0.80 14 -1.00 346-1.15 6-1.40 2. Intercept desired fin curve 3. Read on horizontal axis the maximum allowable ambient temperature ner a PTEuRvE, DEFINES TEMPERATURE RISE OF JUNCTION ABOVE WEAT SINK iF 101 Li DISSIPATION IN ReCTINER FOR TIME 3, 1. STARTING FROM, HEAT SINK MPE: maniMuM HEAT SINK. TEMPERATURE DIVIDED BY THE TRANSIENT TWERMAL RESISTANCE: TUTTI TTT TTT TT MTT TT TTT LOAD PULSE OF DURATION T, PEAK ALLOWABLE RATURE, EQUALS 200 C (MAXIMUM T,) M 200 - THear sink Perak TT ei FOR OPTIMUM RATINGS AND FURTHER INFORMATION, SEE G-E Lt Leet APPLICATION NOTE 200.9 (FORMERLY ECG 469] ENTITLED Latrt | WER SEMICONDUCTOR RATINGS UNDER TRANSIENT AND (STERMIT TENT LOAD: I] Bd Ol OF 1a 100 PEAK SQUARE WAVE FORWARD POWER "ON" TIME-SECOND 10. TRANSIENT THERMAL RESISTANCE