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 130M@ PACKAGING RECTIFIERS @ MOUNTING AND COOLING RECTIFIERS Mi HIGH-SPEED FAST RECOVERY Mi TRANSIENT SELF-PROTECTION Mi GENERAL PURPOSE .25 TO 3 AMPERES THE INDUSTRY'S BROADEST LINE OF POWER RECTIFIERS.250 TO 1500 AMPERES, UP TO 3000 VOLTS M@ CURRENT/ VOLTAGE RATINGS JEDEC 1N5059-62 1N4245-49 _ 1N5624-27 _ GE TYPE 0T230 A14A-P GER4001-7 A1144-M A15A-N A115A-M SPECIFICATIONS femiay) (A) @ Talc) Vem(rep) Max. repetitive peak reverse voltage (V) 50 100 150 1000 Max. peak one cycle, non-recurrent surge current (60 Hz sine wave, 1 phase operation) @ max. rated toad conditions (A) Rt Max. non-repetitive for 8.3 msec. (A?sec) lem (surge) tw Operating junction temperature range (C) Storage temperature range (C) Max. peak forward voltage drop @ rated I;av) (1 phase operation) ter Max. reverse recovery time (usec) PACKAGE NOTE: A14F Al4A 1N5059 Al4c 1N5060 A14E 1N5061 1N5062 Al4P! 50 4 1.0 6 119 GER4001 GER4002 GER4003 GER4004 GER4005 GER4006 GER4007 30 11 119 1N5624 1N5625 1N5626 1N5627 125 25 1.0 5 119.2 Average forward current 1 amp. @ Ta==90C. Junction, operating and storage temperature range 65 to +-165C. * JAN & JANTX types available 131Passivated Rectifier Al4 SERIES TRANSIENT VOLTAGE PROTECTED 1N9099 2.5 Amps 200-1000 Volts 1N5060 THE GENERAL ELECTRIC A114 1S A 2.5 AMPERE RATED, AXIAL-LEADED GENERAL PURPOSE RECTIFIER. DUAL HEATSINK CONSTRUCTION PRO- 1N5062 VIDES RIGID MECHANICAL SUPPORT FOR THE PELLET AND EXCELLENT THERMAL CHARACTERISTICS. PASSIVATION AND PROTECTION OF THE A14P SILICON PELLETS PN JUNCTION ARE PROVIDED BY SOLID GLASS; NO ORGANIC MATERIALS ARE PRESENT WITHIN THE HERMETICALLY SEALED PACKAGE. The Al4 is Transient-Voltage Protected. This device will dissipate up to 1000 watts in the reverse direction without damage. Voltage Transients generated by household or industrial power lines are dissipated. absolute maximum ratin QS: (25C unless otherwise specified) 1N5059 1N5060 1N5061 1N5062 Al14P *Reverse Voltage ( 65C to +175C, T;) (A14B) (A14D) (A14M) (A14N) (65C to +165C for 1N5062 and Al4P) Working Peak, Vawn 200 400 600 800 1000 ~=- Volts DC, Va 200 400 600 800 1000 Volts *Average Forward Current, I, *100C Ambient (90C for 1N5062 and A14P) 1.0 Ss Amp 25C Ambient (See Rating Curves) 25 __ Amp *Peak Surge Forward Current, Ipgay Non-repetitive, .0083 sec., half sine wave, Full Load JEDEC Method 30 *e*Cdpps No Load (25C Case) iO (C Amps Peak Surge Forward Current, Ipsy Non-repetitive, .001 sec., half sine wave, Full Load S29 CT Amps No Load (25C Case) $__|_ 100 ___> Amps *Junction Operating and Storage Temperature Range, T; & Tsrg < 65 to +175 ~<_> 65 to +165 C I-t, RMS (for fusing), .001 to .01 sec. _______._ 41.0 ________> Amps sec. Maximum Avalanche Voltage ______- 1600 __ Volts Peak Non-repetitive Reverse Power Rating, Pry 20 usec., half sine wave, at Max. T, ___ 1000 ___ Watts *100 sec., JEDEC << 150 Cwatt *Mounting: Any position. Lead Temperature 290C maximum to % inch from body for 5 seconds maximum during mounting. electrical characteristics: (25c unless otherwise specified) *Maximum Forward Voltage Drop, Vp, 1A, T; = 75C Oi: SC Volts Maximum Reverse Current, I, at Rated Vary: T,; = 25C OO > pA *T, = 165C _ _ 200 200 pA *T, = 175C 300 300 200 pA Typical Reverse Current, Ip, at Rated Vrru . 10 _> pA Typical Reverse Current, I, T;= 25C 0.2 0.2 0.3 0.5 0.5 pA T,; = 100C 20 20 20 30 30 pA Typical Reverse Recovery Time, Trg _ 3 __ psec. Maximum Reverse Recovery Time, Tre _ Co, psec. Recovery circuit per MIL-S-19500/286C. *JEDEC Registered data. 290Ig- AVERAGE AMPERES 1N5059 1N5060 1N5061 1N5062 MAXIMUM ALLOWABLE DC OUTPUT CURRENT RATINGS SINGLE PHASE 600 VOLTS & BELOW 3.0 Al4 SINGLE PHASE HALF ] WAVE RESISTIVE LOAD o NY LEAD LENGTH 3/8" TOTAL THERMAL RESISTANCE $ MN. By., 237 C/w 20 A. Oy. 260 C/W < ~ + Su-a ' S] | Sg HEAVY TIE LUGS OR 4 NS LEAD LENGTH 1/2" DM LARGE COPPER AREA aw 545 C/W ~ PC BOARDS. e (7 Oynk @ 6 se be 70 c/w =o 20 ~< | ra ~ Oya = 70 5 w a NN TYPICAL THERMAL LUG 7 lr NA LEAD LENGTH = 3/4 5 . -AXS MOUNTING. z ~~ Oy, = 57 C/W MN C. @y.4 780 C/W @ g 2 ae TYPICAL PC BOARD zs ys i = hr Ww MOUNTING SMALL COPPER o WN w AREA. oy 7 hs h <* N 208 Fo 10 Pp w IS aH SS A 2 Ww SX < SX < o4 & TIE POINT OPERATION S z THERMOCOUPLE PLACED IN SOLDERED JOINT OF LEAD y TO EXTERNAL HEAT SINK, 30 50 70 30 HO 130 150 170 30 50 70 90 Ho 130 150.170 AMBIENT TEMPERATURE - C LEAD TEMPERATURE T, - C AMBIENT OPERATION TIE POINT OPERATION RESISTIVE OR INDUCTIVE LOAD 800 AND 1000 VOLTS 3.0 LEAD LENGTH = 3/8" SN oN ByeL 37 c/w , 90 LEAD LENGTH 1/2" 2 J ~ @y-. 245 C/W = LEAD LENGTH = 3/4" < oS PN e- 2878 cw g N \ MN 2 1.0 RSS TIE POINT OPERATION \ THERMOCOUPLE PLACED IN SOLDERED JOINT OF LEAD TO EXTERNAL HEAT SINK. L_y, 30 50 70 90 Ho 130 150 170 30 50 70 90 0 130 150 AMBIENT TEMPERATURE - C LEAD TEMPERATURE T- * AMBIENT OPERATION TIE POINT OPERATION TYPICAL TIE LUG MOUNTS TYPICAL PC BOARD MOUNTING 10" 1.0" 20 WIRE = 7 c 7 Lo j oN pERF BOARD Noss GLASS EPOXY PC BOARD 2911N5059 1N5060 1N5061 1N5062 A1i4P INSTANTANEOUS REVERSE CURRENT- sAMPS. 5 3 REVERSE CHARACTERISTICS AT SELECTED 100 PEAK FORWARD SURGE CURRENT-AMPS. 6 MAXIMUM NON-REPETITIVE MULTICYCLE , GOOV-175 C loorc , rw a B00v tore 2sc & BOOV 25C INSTANTANEOUS REVERSE VOLTAGE-VOLTS JUNCTION TEMPERATURES to CYCLES AT 60 CYCLES PER SECOND FORWARD SURGE CURRENT 292 PEAK REVERSE POWER- WATTS usec INSTANTANEOUS FORWARD CURRENT TYPICAL CHARACTERISTICS VOLTAGE }OOmA INSTANTANEOUS FORWARD VOLTAGE - FORWARD TEMPERATURE COEFFICIENT: FORWARD CHARACTERISTICS AT MAXIMUM JUNCTION yOmsec 1lOOusec Imeec yOmsec OOmsec HALF SINEWAVE PULSE DURATION (current) MAXIMUM NON-REPETITIVE AVALANCHE SURGE POWERCAPACITIVE LOADS Current Derating (capacitive load) Average forward current as specified under MAXIMUM RATINGS page 1 and derating curves for high temperature operation page 2, must be corrected for applications with capacitive loads. As the current conduction angle, <, is decreased, the peak current required to main- tain the same average current increases, i.e., the peak-to-average cur- rent ratio increases from 3.14. Figure 9 gives the derating required based on this increase in peak to average current ratio for sine wave operation. For more complete information consult Application Note 200.30. METHOD: 1. Determine conduction angle in degrees for particular circuit as designed. 2. Enter Figure 9 for the particular conduction angle and read corresponding percent of forward current per cell. 3. Multiply this value times average forward current for resistive load from figures on page 2 as given for the actual ambient or tiepoint temperature required. 1N5059 1N5060 1N5061 1N5062 A14P Tbe aK FORWARD CURRENT le @ = CONDUCTION ANGLE (180) a'= SHORTENED CONDUCTION ANGLE OSCILLOSCOPE PRESENTATION La TYPICAL EXAMPLES (25C Ambient Temperature) 90 LS aa 5 | Examplelexample Example | Example @ /~ No.1 | No.2 No. 3 No. 4 Units 2 80 Input Voltage 100 | 100 | 300 | 300 | Volts : 70 LAO D.C. (Average) Output Voltage 34 75 | 180 | 270 | Volts Hi 4 Surge Resistor 1 1} 3.5 | 3.5 | Ohms / Load Current 0.5) 0.5] 0.5 | 0.5 | Amps. 50 fA, Input Filter Capacitance 30 | 100 30 | 100 | oF. / Conduction Angle 170 70 90 50 | Degrees / Rated Average Current 1 1 1 1 | Amp. 0 (Resistive Load) 10 20 30 40 FORWARD CONDUCTION ANGLE IN DEGREES 160 170 180 Rated Average Curgnt 0.98 | 0.73 | 0.80 | 0.65 | Amp. 9. DERATING FOR SHORTENED CONDUCTION ANGLE .150 MAX, INTERNAL CONSTRUCTION Marking band to appear , feseuns on cathode end. 1. Dual heatsink design for maximum heat dissi- 180 MAX, pation under both surge and continuous duty. (4.672 Men.) No fragile whiskers or S leads with their potential trouble spots. mn. iperomax 2. Glass Package. No internal cavity to act as (25.400 Mm.) potential source of moisture or contamination + { -035 MAX. . . . } (,.889 Mm.) on junction. Temperature coefficient of the glass DIA. AFTER is matched with the internal parts. OUTLINE TINNING . . . DRAWING ALL DIMENTIONS ARE IN INCHES 3. Diffused silicon junction passivated surface. AND (METRIC) *WELO AND SOLDER FLASH NOT CONTROLLED IN THIS AREA TYPICAL APPLICATIONS @ FREE-WHEELING RECTIFIERS @ TV AND RADIO POWER SUPPLIES @ TIME DELAY CIRCUITS @ COMMUNICATION EQUIPMENT @ POWER LOGIC CIRCUITS @ S.C.R. TRIGGER CIRCUITS @ ARC SUPPRESSION @ SMALL PORTABLE APPLIANCES @ BATTERY CHARGERS @ GENERAL PURPOSE POWER SUPPLIES @ TV DAMPER DIODES e 293 LOW LEVEL LIMITERS