Data Sheet No. PD-2.030D INTERNATIONAL RECTIFIER | [4R 1N3879, INSGS&8SaYg, GFL, 12FL, 16FL SERIES GA, 12A and 116A Fast Recovery Rectifiers Major Ratings and Characteristics Description This range of fast recovery diodes is T 1N3879 1N3889 ; . * . . _=1N38831N3303 oft. [I2FL. vot.. Unit designed for applications in OC power | : f Jies inverters, converters cho| ers, teavyt of BF 12 6 2) 16 A SUpPHes, 7 5, ppers, { on _ ultrasonic systems and for use as free Wego 72 145 a0 | 145 | 180 | A whee! diodes. 6oHz | 75 160 5 145 180 | 190, A z Features yp, 300228 103 60 | 103 | 160 | As 60Hz! 23 94 55 | 94 | 150 As W Short reverse recovery time AT 363 1452 ass | 1452 | 2290 | AA's Wl Low stored charge ty, range see table ns Mi Wide current range Vegan nge| 50 400 : 50 1000 v @ Excellent surge capabilities T, range i 65 ta 150 Peg Standard JEDEC types ; WiStud cathode and stud anode versions Mi Types up to 1000V Very @ Fully characterised reverse recovery conditions *JEDEC registered values. + At max. Te = 100C, CASE STYLE AND DIMENSIONS - < 2 3 S 2 (0.45) 10.74} se Conforms to JEDEC : DO~209AA (DO4) 11.00 (0.433) MAX. E IEC 191-2: A3U ACROSS FLATS . } 4 8S 3934 : SO10A DIN 41885 : 101 C2 All dimensions in millimetres (inches)1N3879, 1N3889, GFL, 12FL, 1GFL Series REVERSE VOLTAGE RATINGS INTERNATIONAL RECTIFIER Vram Max. IR Max. Reverse Current VrAM Max. | Non-Repetitive Peak At Rateo VR Repetitive Peak Reverse Voltage Reverse Voltage to SG ms Ty=259C | Ty= 100C | Ty = 150C Part Number OO Vv Vv mA mA mA 7N3879 50 75 O.0lS* TO 30 1N3880 100 160 0.015" 1.0* 3.0* 1N3881 200 250 0.015" 1.0 30 @ 1N3882 300 350 0.015" 1.0* 3.0* 1N3883 400 450 0.015% 1.0% 3.0* 1N3889 BO 75 o.025" sO" eo 1N3890 100 150 0.025 3.0* 5.0" (> 1N3891 200 250 0.025* 3.0* 5.07 WW 1N3892 300 350 0.025* 3.0* 6.0" 1N3893 400 450 0.025* 3.0% 5.0 *"6F L5SOZ BFLSSO5 GFLOSIO 50 7S Tose = TO 6FL10S02 6FL10805 6FLIO510 190 450 0.050 - 69 6FL20S02 6FL20505 6FL20510 200 276 0.050 - 6.0 8FL40S02 6F L40805 6FL40510 400 600 0,050 - 60 @ 6F Le0so2 6F L60S05 BFELEOS10 600 725 0.050 - 6.0 = 6FL80S05 6FL80S10 800 950 0.050 - 60 = GF L1 00505 BELI00S10 1000 1250 0.050 60 =*12FLSSO2 12FLSS0S 12FL5S10 50 75 7.050 = oO 12FL10S02 | 12FL1080S 12FL10510 100 180 0.050 - 60 12FL20802 | 12FL20S05 12FL20810 200 275 0.050 - 6.0 1ZFL40S02 | 12FL40S05 12F140810 400 500 0.050 - 60 ) 12FL6OSO2 | 12FL60SO5 12FL60S10 600 725 0.050 - 6.0 - 12FLROSO5 12 L80S10 800 950 0.050 - 6.0 = +2FL100S05_| 12FL100S10 1000 1250 0.050 6.0 **1BFL5S02 16 LSS05 16FLSS10 50 75 0.050 = oO 1BFLIOSO2 | 16FL1OS05 16FL10$10 100 15D 0.050 - 6.0 16FL20802 | 16FL20805 16FL20S10 200 215 0.050 - 6.0 16FL40S02 | 16FL40S05 16F 140810 400 500 0.050 ~ 60 18FLA0SO2 | 16FL60S05 16F L60S10 600 725 0.050 6.0 = 16F L80S05 16FL80S10 800 950 0.050 - 6.0 = 16FL100S05_| 16FL100S10 1000 1250 0.050 = 6.0 REVERSE RECOVERY CHARACTERISTICS 6FL... 1N3879 | 1N3889 Max. reverse re- covery time 150 150 110] 285) 490/100 RM(REC) re- 4 5 Max. reverse re- covered charge 4a0 350 2301700 {5000 | 200 400 4Q0 200 }1200 ; 5000 1N3893 forward rm.s. forward current non- repetitive forward current Max. for fusing Max. for individual Max. t for individual 363 356 1452 15 *JEDEC ragistered value **Suffix S02 may be omitted, I.e., 12FL10 implies 12FL10S02, 12FLAGO implies 12F LRBOSO2. @)Types listed are cathode to case; for anode-to-casa include 'R in code, i.e., 1IN3879R, 6FLR20510, 16FLR40802, 2290 12 7 aH = 100 Alus = F 2501 430] 90 J F dig jdt = 100 A/us Fidt = =a x rated le(a' 1300 150 1100) 3000 7200 [5000] 200 |1200 | 5000 With rated VRRM | sinusoidal half wave, initial Ty = 150C Varm = 9 ; With rated VRRM A2s Initial Ty = 150C Vram = 9 0.1 ta 10. ms Vv 2 =TX IR(AYy) @ rated 1F(Ay) and VRRM, and Tc = IRM @ rated VaRM and Ty = 150C. 12t for time ty = 12a/t x When these devices ara ordered without a suffix, 6.g., 40HFL, the ordar will be filled with devices that meet the SOQ2 specification.INTERNATIONAL RECTIFIER Thermal and mechanical specifications 1N3879, 1N3889, GFL, 12FL, 16FL Series 70 70 1N3H79 1N3889 ! 1N3883 1N3893 : 6EL... 12FL... 16FL... Units | Conditions Ty dunetion operating temperature range 65 to 150 C | Tstg Storage temperature range 65 to 176 ; C | Rinse Maximum internal thermai resistance, 25 2.0 1.6 | deg CW] DC operation junction to case | Rthcs Maximum thermal resistance, case to : 05 T deg CAV | Mounting surface flat, smooth and | heatsink greased. ! T Mounting tarque to nut 105 Ibt.in | Lubricated threads .10% 0.12 kgf.m (Non-lubricated threads) 12 Nm to device 11.5 (13.5) Ibf.in 0.13 (0.155) kgf.m 1.3 (1.35) Nm wt Approximate weight 7 9 0.28 oz Case style BO-203AA (DO4) JEDEC e ? , 160 160 & fi af 3150 2 150 t < m1a0 a 140 a 2 = 130 = 130 e # w120 wy 120 a @ Od 9410 Ww ua Z z az 100 $ 100 90 f 80~ iv 3 90 1 LS z ao aA 2 a0 120 SL = , = 60 JL SS 2 ALN E3 = = x x < < = = 80 1 2 3 4 S$ 6 7 8 2 10 AVERAGE FORWARD CURRENT & Fig. 1 Average Forward Current Vs. Maximum Allowable Case Temperature, 1N3879 and GFL Series RE C 8 6 86 @ ary 3 3.8 8 MAXIMUM ALLOWABLE CASE TEMPERATU: a a o 3S 30 AVERAGE FORWARD CURRENT A Fig. 3 Average Forward Current Vs. Maximum Allowable Case Temperature, 16FL Series 60 4 6 8 10 12 1 AVERAGE FORWARD CURRENT A Fig. 2 Average Forward Current Vs. Maximum Allowable Case Temperature, 1N3889 and 12FL Series AlRM(REC) ~~~ lAMIREC) --- wa ORR le, lem = Peak forward current prior to commutation dIF/g_ > Rate of fall of forward current IQ@M(REC}= Peak reverse recovery current tre = Reverse recovery time Qrer = Reverse recovered charge Fig. 4 Reverse Recovery Time Test Waveform1N3879, 1N3889, GFL, 1ZFL, 16FL Series MAXIMUM AVERAGE FORWARD POWER LOSS MAXIMUM AVERAGE FORWARD POWER LOSS W o 20 18 16 14 12 10 MAXiMUM AVERAGE FORWARD POWER LOSS W 1N3879~1N3883 BFL... = Jo, @ = 180 s = Ty) = 150C 120? @| 2 60 s 2 $ 30! 3 oc cic = 2 oo io RMS timit ~%, % Conduction Angle 0 1 2 3 4 5 6 10 20 30 40 50 60 70 BO 90 100 AVERAGE FORWARD CURRENT A MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. 5 Current Rating Nomogram (Sinusoidal Waveforms), 1N3879 and 6FL Series 4 1N38791N3BB3 6FL... e|& Ty =150%C| | e | @ = 180 2 | z ; 120 = efai | 60 s| a I c 3a 30' _ | 1 ; De} o RMS fimit 180] 0-33 | / , { 120! 0-58 pot 4 ~ 60 | 1-28 70 Rens Conduction eatsink Angle ! 30 [220 o 1 2 3 4 5 6 7 8B 8 10 10 20 3D 40 50 60 70 80 9D 100 AVERAGE FORWARD CURRENT A MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. & Current Rating Nomogram (Rectangular Waveforms), 1N3879 and GFL Series 1N3B891N3803 S ! 12FL... = 3) 2: Ty = 180C 5s | | 120 = i 60 8 | 30 Bie e a 5 2 J RIMS limit .- 180] 0-46 120] 0-48 f a ~AR 60 | 1-02! Conduction mo 30} 1-78! ngle . o 1 2 3 4 & 6 7 @ 9 10 11 12 10 20 30 40 50 60 70 80 90 100 AVERAGE FORWARD CURRENT A MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. 7 Current Rating Nomogram (Sinusoidal Waveforms}, 1N3889 and 12FL Series INTERNATIONAL RECTIFIER1N3879, 1N3889, 6FL, 12FL, 16FL Series 30 1N38891N3893 12FL... 25 LT, = 150C i @ = 180 120? 60 30 20 a 5 ol Canduction \ Angle 12 14 16 5 | na a o a ac wi 2 8 a a Cc =< z c 15 i Ww a Ww > t = 2 2 x a 0 = o 2 4 6 8 10 AVERAGE FORWARD CURRENT A Fig. 8 Current Rating Nomogram (Rectangular Waveforms}, 1N3889 and 12FL Series a Conduction Angie MAXIMUM AVERAGE FORWARD POWER LOSS W AVERAGE FORWARD CURRENT A 18 20 o 2 4 6 8 10 12 14 INTERNATIONAL RECTIFIER Conduction angle @ AR KAN o oO o 71B0| 0.26 120] 0-46 60 30 | 1:76 NO heatsink 10 20 30 40 50 60 70 80 90 100 MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Kw Conduction angle O AR a 5S o 0-37 nm a Q a a 0-82 30 | 1-44 1610 20 30 40 50 60 70 80 90 100 MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. 9 Current Rating Namogram (Sinuscidal Waveforms), 16FL Series 35 GFL... 30 L Ta- 180%e = 180 25 120 60 30 20 15 F RMS limit g Conduction Angle 0 5 10 15 20 MAXIMUM AVERAGE FORWARD POWER LOSS W AVERAGE FORWARD CURRENT A kKiw SR Conduction angle @ Qo oO 3 0-21 120} 0-37 AR g0| 0-82 30] 1-41 25 #10 20 30 40 50 60 70 80 90 100 MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. 10 Current Rating Nomogram (Rectangular Waveforms}, 16F L Series1N3879, 1N3889, GFL, 12FL, 16FL Series INTERNATIONAL RECTIFIER o a 1N38791 GFL... 1N3879-1N3883 BFL... > @ = 180 120 ; 60 30 a 3 INSTANTANEOUS FORWARD CURRENT - A 3 MAXIMUM AVERAGE FORWARD POWEH LOSS W Ty= 150C 1 0 08 10 15 20 25 30 3:5 40 1 10 1 10 INSTANTANEOUS FORWARD VOLTAGE AVERAGE FORWARD CURRENT A Fig. 11 Maximum Forward Voltage Vs. Forward Fig. 12 ~ Maximum High Level Forward Power Loss Current, 1N3879 and 6FL Series Vs. Average Forward Current, 1N3879 and SFL. Series we 3 3 2 TN38891N3893 T2FL... 3 wy 3 a 3 INSTANTANEOUS FORWARD CURRENT A 3 = 2, Ty) = 190C MAXIMUM AVERAGE FORWARD POWER LOSS -- Ww 0 O05 10 15 20 25 30 36 40 1 10 20 INSTANTANEOUS FORWARD VOLTAGE V AVERAGE FORWARD CURRENT A Fig. 13 Maximum Forward Voltage Vs. Forward Fig. 14 Maximum High Level Forward Power Loss Current, 1N3889 and 12FL Series Vs. Average Forward Current, 1N3889 and 12FL Series we te & a Ty = 150C INSTANTANEOUS FORWARD CURRENT A 1 MAXIMUM AVERAGE FORWARD POWER Loss W 0 05 10 15 20 25 30 365 40 1 10 107 10 INSTANTANEOUS FORWARD VOLTAGE V AVERAGE FORWARD CURRENT A Fig. 15 Maximum Forward Voltage Vs. Fig. 16 Maximum High Level Forward Power Loss Forward Current, 16FL Series Vs. Average Forward Current, 16FL SeriesREVERSE RECOVERY TIME ns REVERSE RECOVERY TIME ns REVERSE RECOVERY TIME ns INTERNATIONAL RECTIFIER Ty> Ip = 7x rated le(ay) 600 500 400 300 20 6FL...S02 12FL...502 16FL...S02 10 10 30 400 RATE OF FALL OF FORWARD CURRENT A/us Fig. 17A Maximum Reverse Recovery Time Vs. Rate of Fall of Forward Current, All Series __S02 16FL....505 3000 ip = 71x rated | v): 200 1 teeta 1 3 10 30 100 RATE OF FALL OF FORWARD CURRENT A/us Fig. 18A Maximum Reverse Recovery Time Vs. Rate of Fall of Forward Current, Ail Serias __ S05 2000 1000 600 500 400 300 200 1G6FL...510 100 1 a 10 30 100 RATE OF FALL OF FORWARD CURRENT A/us Fig. 19A Maximum Reverse Recovery Time Vs. Rate of Fall of Forward Current, All Series __$10 1N3879, 1N3889, 6FL, 12FL, 16FL Series 6FL...S02 12FL...S02 16FL...S02 ip = wx gy o OG 2e. RECOVERED CHARGE nt 3 1 30 RATE OF FALL OF FORWARD CURRENT A/us Fig. 178 Maximum Recovered Charge Vs. Rate of Fali of Forward Current, All Series __S02 6FL...505 12FL...S06 V6FL...S05 lol Ip = 77x rated le(ay) RECOVERED CHARGE n 1 3 10 30 100 RATE OF FALL OF FORWARD CURRENT A/us Fig. 186 Maximum Recovered Charge Vs. Rate of Fall of Forward Current, All Series ___SO5 10 ip = Wx rated leyayy oO ec 10 \ aw o xc = 3 10% a iw x wu 3 2 810 c 46FL...810 10 1 3 10 30 100 RATE OF FALL OF FORWARD CURRENT A/us Fig. 198 Maximum Recovered Charge Vs. Rate of Fall of Forward Current, All Series __S101N3879, 1N3889, GFL, 12FL, 16FL Series INTERNATIONAL RECTIFIER ANY LOAD CONQITION AND WITH RATED APPLIED FOLLOWING SUAGE. AND RATEO Vag APPLIED FOLLOWING SURGE. PEAK HALF SINE WAVE EQ RWARD CURAFNT (AMPERES) PEAK HALF SINE WAVE FORWARD CURRENT {AMPERES} 40 2 4 6 40 60 1 2 4 6 @ 10 20 40 80 NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES (N) NUMBER OF EQUAL AMPLITUUE HALF CYELE CURRENT PULSES (11 Fig, 20 -- Maximum Non- Repetitive Surge Current Fig. 21 Maximum Non-Repstitive Surge Current Vs. Number of Current Pulses, IN3879 Series Vs. Number of Current Pufses, GFL Series AT ANY LOAD RATED Vanm APPLIED FOL LOW:NG SURGE. ANO RATEO APPLIED FOLL JWING SURGE. gS PEAK HALF SINE WAVE FORWARD CURRENT (AMPERES) PEAK HALF SINE WAVE FORWARD CURRENT (AMPERES) 1 4 6 $ W 20 a0 ci z 4 a au 46 NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES (NI NUMBER DF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES (NI Fig. 22 Maximum Non-Repetitive Surge Current Fig. 23 Maximum Non-Repetitive Surge Current Vs. Number of Current Pulses, Vs. Number of Current Pulses, 1GFL Series 4IN3889 and 12FL Series 10 1 1N3883 w BFL... Qo ae 1N3889=1 e 28 4 at << 23 ag 1 ie re BS Ge a2 g2 ft ec FE it 10 10 1 10 SQUARE WAVE PULSE DURATION s Fig. 24 Maximum Transient Thermal Impedance, dunction-to-Case Vs. Pulse Quration, Ali Series.