International 2k|Rectifier Mm 4855452 0016714 TL? MBINR SERIES IRK.L131/132 FAST RECOVERY DIODES INTERNATIONAL RECTIFIER bSE D Features @ Fast recovery time characteristics g Electrically isolated base plate g Industrial standard package w Simplified mechanical designs, rapid assembly High surge capability mw Large creepage distances m UL recognised @ 3000 V. ys isolating voltage @ Beryllium oxide substrate @ Also available with aluminum nitrade substrate Description The IRK.L132 Series of INT-A-pak uses fast recov- ery power diodes in four basic configurations. The semiconductors are electrically isolated from the metal base, allowing common heatsinks and com- pact assemblies to be built. Application includes power supplies, battery chargers, welders, motor controls and general industrial current rectifica- tion. These modules are intended for those appli- cations where fast recovery characteristics are re- quired. Major Ratings and Characteristics NEW INT-A-pak Power Modules 140A Parameter IRK.L131/132 | Units lecay 140 (130) A @T, 100 (105) C le~ams) 220 A lesm @ 50Hz 3000 A @ 60Hz 3100 A Pt @ 50Hz 44.2 kA?s @ 60Hz 40.3 kA?s Vary range 400 to 1400 Vv Ty -40 to 150 C D243 Bulletin 127095IRK.L131/132 Series MB 4855452 0016719 953 MBINR INTERNATIONAL RECTIFIER BSE D ELECTRICAL SPECIFICATIONS Voltage Ratings Type number | Voltage t, Varnw > maximum repetitive | V_.,,, maximum non-repstitive lanm Code Code peak reverse voltage peak reverse voltage max. Vv Vv mA 04 $10/S20 400 500 40 06 $10/S20 600 700 40 IRK.L131/132 08 $10/S20 800 900 40 10 $10/S20 1000 1100 40 12 $20 1200 1300 40 14 S20 1400 1500 40 Forward Conduction Parameter IRK.L131/132 | Units Conditions leg AY) Max. average forward current 140 (130) A ___|180 conduction, half sine wave @ Case temperature 100 (105) C leams) Max. RMS forward current 220 A_ fas AC switch lesy Max. peak, one-cycle forward, 3000 A |t=10ms | No voltage non-repetitive surge current 3100 A |t=8.3ms| reapplied Sinusoidal half wave, 2500 A |t=10ms | 100% V_., Initial T, = T, max 2600 A |t=8.3ms| reapplied rt Maximum Ft for fusing 44.2 kAs_ |t = 10ms | No voltage 40.3 kAs |t = 8.3ms| reapplied Sinusoidal half wave, 31.2 kAs jt = 10ms | 100% V3, Initial T, = T, max 28.5 kA?s It = 8.3ms| reapplied Yt Maximum Vt for fusing 442 kA?/s |t = 0.1 to 10ms, no voltage reapplied V, Low level value of threshold FTO)| 1.12 Vi | 16.7% XR X ley <1<mXIeay) Ty = T, max Vecong High level value of threshold voltage 1.51 v (2X Vegay) <1 < 20K wx bey) T,=T, max t, Low level value of forward 1 = slope resistance 1.52 ma (16.7% xm xlegy < I <nXleay) T, = T, max le High level value of forward . slope resist 0.71 mQ |(cx lay) <1<20xnx leav) T,=T, max Vey Max. forward d 1.68 v eect Tae pu Max. forward voltage drop Av. power Vera) X levayy +X (eens)! Thermal and Mechanical Specifications T J Max. junction operating temp. -40to 150 C Tg Max. storage temperature range -40t0 150 C Ric Max. internalthermal resistance 0.20 ~ K/W | IRKDL/CLL Perjunction, DC operation junction tocase 0.20 K/W | IRKEL Perjunction, DC operation Ric.g Thermalresistance, case 0.035 KW Mounting surface flat, smooth and greased toheatsink Permeodule T Mounting INT-A-pak to 4108 Nm_ | Amounting compounds recommended and the torque should torque +10% heatsink be rechecked after a period of about 3 hours to allow forthe Busbar to INT-A-pak 4to6 Nm | spreadotthe compound wt Approximate weight 500 (17.8) g(oz) Case style INT-A-pak D244Me 4855452 0016720 75 MBINR IRK.L131/132 Series Blocking INTERNATIONAL RECTIFIER BSE D laay Max. peak reverse leakage current 40 mA T= 150C Ving RMSisolation voltage 3000 Vv 50Hz, circuit to base, allterminals shorted, t = 1s AR Conduction (per Junction) (The following table shows the increment of thermal resistence R,, ,, when devices operate at different conduction angles than DC) Conduction angle } Sinusoidal conduction | Rectangular conduction | Units Conditions 180 0.015 0.011 Kw | T,=T, max. 120 0.018 0.019 K/W Per junction 90 0.024 0.026 K/W 60 0.035 0.037 K/W 30 0.059 0.060 K/W Recovery Characteristics Test conditions Typ. values @ T= 150C Code lox dif/dt Vv, Qa. \ (A) | (Alus)) (Y) (uC) (A) $10 500 100 50 38 70 $20 " . . 68 95 Ordering Information Table Device Code Module type Current rating Table) Circuit configuration (See Outiline Table) L = Fast recovery diode trr code (See Recovery Characteristics Table) El] None = Standard devices (beryllium oxide) N= Aluminum Nitrade substrate (contact factory) 1 = option with spacers and longer terminal screws 2 = option with standard terminal screws [l Voltage code: Code x 100 = VRRM (See Voltage Ratings Recovery Characteristics Table $10= 1000 ns $20= 2000 ns D245IRK.L131/132 Series MM 4855452 0016721 501 MBINR INTERNATIONAL RECTIFIER BSE D (SEE TABLE) | A A - All dimensions in millimeters (inches) tT - Dimensions are nominal See. - Full engineering drawings are available i | on request wio} ol o || - UL identification number for cathode 8(0.32) wire: UL 1385 UL identification number for package: 94(3.70) UL 94V0 7 80(3.15) M6 x1 (0.27 3 Screws x 1 r| r 3 CONTAINS BERYLLIUM OXIDE CERAMIC +i ry m 2 xp Moy contain Beryllium Oxide ~~ ig 2 HOLES 26.5 Ceromic, ond under normal 4 o circumstances is non hozordous. 6 Do not apen, cut or grind. @ Unserviceoble parts must be i of os hormful waste. For ali types A B Cc Co E IRK.,.5 25(0.98) | ~--- =--- 41(1,61) _|47(1.85) HARMFUL IRK...6 23(0.91) | 30(1.18) | 36(1.42) ---- --7-7- IRKOL... = =T IRKEL... IRKCL... =, | (0) | 3 ) O ~@ -@} | - +* - -@ -@ +@ oy] Loy] + oy Loyd _ 7 + I Cc 160 150 c IRK.L132..510/520 440 Rthjc (DC) = 0.20 i 130 \ 120 NS Conduction Period~| 110 A T T T IRK.L132..510/S20 150 Rthjc (OC) = 020 K/W va | WD. I 1 & oe > 2 la uJ S S ii 130 \ Conduction angle us kal Lu y & 120 SS 3 7 WK 100 wy AWN Wy 60" N N\ 2 110 350 NX 2 90 90 N = = 60 ao 120 a N 4 ) a 100 90 1 y a 80 | =z 120 j < 180 oc 3 uP 3 I l 3 1 = 70 = 90 = x 0 30 60 90 120 150 x 0 50 100 150 200 250 = AVERAGE FORWARD CURRENT A = AVERAGE FORWARD CURRENT A Fig. 1 - Current Ratings Characteristics Fig. 2 - Current Ratings Characteristics D246Me 4855452 OOlbece 250 r F 200 z LY 30 Sip RMS LIMIT /, Wa 100 L wal tk 4 Conduction angle 50 t t t IRK.L132..510/S20 Td = 150C PER JUNCTION 0 20 40 60 80 100 120 AVERAGE FORWARD CURRENT A Fig. 3- Forward Power Loss Characteristics 150 140 MAXIMUM AVERAGE FORWARD POWER LOSS W 3000 AT L RATED VRRM APPLIED FOLLOWING SURGE. INITIAL TJ = 150 C @ 60 Hz 0.0083 s @ 50 Hz 00100 s 2500 2000 1500 1000 IRK.L132..S1 J 500 PEAK HALF SINE WAVE FORWARD CURRENT A 1 10 100 NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES - N Fig. 5 - Maximum Non-Repetitive Surge Current A Qa 3 3 3 Q So Oo 100 10 INSTANTANEOUS FORWARD CURRENT Oo 1 2 3 4 5 6 INSTANTANEOUS FORWARD VOLTAGE - V Fig. 7 - Forward VoltageDrop Characteristics W48 BBINR INTERNATIONAL RECTIFIER MAXIMUM AVERAGE FORWARD POWER LOSS - W PEAK HALF SINE WAVE FORWARD CURRENT - A MAXIMUM TRANSIENT THERMAL IMPEDANCE K/W IRK.L131/132 Series b5E D 550 Det y i. /// 300 i At > VA SH 250 60 fc TMA 200 MLA WY 150 f Y) RMS YY 100 Conduction Period 50 IRK.L132..$10/520 TJ = 150C PER JUNCTION Go { i i 0 40 80 120 160 200 240 AVERAGE FORWARD CURRENT A Fig. 4- Forward Power Loss Characteristics 3000 MUM VERSUS PULSE TRAIN DURATION. OF CONDUCTION MAY NOT BE MAINTAINED. 2500 INITIAL TJ = 150 C VOLTAGE REAPPLIED VRRM_ REAPPLIED 2000 1500 1000 -irk 132..510 PER JUNCTION 500 01 Jl 1 PULSE TRAIN DURATION s Fig. 6 - Maximum Non-Repetitive Surge Current 1E0 A -C = 0.20 K/W (DC OPERATION) 16-1 1E-2 ui S14 PER JUNCTION 1E-3 1E~4 1E-3 1-2 1E-1 160 Et 1E2 SQUARE WAVE PULSE DURATION s Fig. 8- Thermal Impedance ZthJC Characteristics D247PEAK FORWARD CURRENT A IRK.L131/132 Series 50 1 IRK.L132..S10 TJ = 150 C iFM = 1000A 40 50044 Ln 30 Ye JE Leen) J, rTO0A 20 | | SOA a 10 Q Q 20 40 60 80 100 MAXIMUM REVERSE RECOVERY CHARGE Orr uC RATE OF FALL OF FORWARD CURRENT di/dt - A/us Fig. 9 - Reverse Recovery Charge Characteristics +00 90 80 70 60 50 40 30 20 10 10 20 30 40 50 60 70 80 90 100 RATE OF FALL OF FORWARD CURRENT di/dt - A/us MAXIMUM REVERSE RECOVERY CHARGE Qrr uC Fig. 11 - Reverse Recovery Charge Characteristics 1E4 7 joules 1E3 1E2 1E1 Sinusoidal Ty 150 'C 1E0 161 1E2 1E3 PULSE BASEWIDTH us MB 4855452 0016723 384 MINK <= _ 80 TI = iFM = we = 70 OOAZ te i 5 JP 7 VO0A 60 i = _ Jos oO % HY x 40 A i YA Pt [204 59 M1 > i e LY s 2- tA 5 7 IRK.L152..510 = T= 150C = 10 1 = 10 20 30 40 50 60 70 80 90 100 RATE OF FALL OF FORWARD CURRENT di/dt A/ys Fig. 10- Reverse Recovery Current Characteristics 120 110 100 90 80 70 60 50 40 30 IRK L132.. 20 TJ = 150 C MAXIMUM REVERSE RECOVERY CURRENT Irr A 10 10 20 30 40 50 60 70 80 90 100 RATE OF FALL OF FORWARD CURRENT di/dt - A/us Fig. 12- Reverse Recovery Current Characteristics L1$2..$10 Trapezoidal Pu TJ 150 1E4 1E2 1E3 14 PULSE BASEWIDTH us Fig. 13 - Maximum Forward Energy Power Loss Characteristics INTERNATIONAL RECTIFIER BSE DPEAK FORWARD CURRENT A PEAK FORWARD CURRENT A 1E5 1E4 1E3 1E2 161 1E5 m a m Ww 1E2 1&1 MB 4855452 0016724 210 MBINR IRK.L131/132 Series INTERNATIONAL RECTIFIER 132.810 Sinusoidal TC 60 'C 1E2 1E3 1E4 16} PULSE BASEWIDTH us BSE Dd IRK.L132..510 Sinusoidal Pu TC 100 C 1E2 1E3 164 PULSE BASEWIDTH us Fig. 14- Frequency Characteristics L132..810/ Trapezoidal TC 60 C 1E2 1E3 1E4 161 PULSE BASEWIDTH ys L $10 Trapezoidal TC 100 1E2 1E3 1E4 PULSE BASEWIOTH ys Fig. 15- Frequency Characteristics D249