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| Bulletin I25169 rev. C 04/00 ST380CH..C SERIES PHASE CONTROL THYRISTORS Hockey Puk Version Features Center amplifying gate Metal case with ceramic insulator International standard case TO-200AB (E-PUK) Low profile hockey-puk to increase current-carrying capability Extended temperature range 960A Typical Applications DC motor controls Controlled DC power supplies AC controllers Major Ratings and Characteristics Parameters IT(AV) @ Ths IT(RMS) @ Ths ITSM @ 50Hz @ 60Hz It 2 case style TO-200AB (E-PUK) Units A C A C A A KA2s KA2s V s C ST380CH..C 960 80 2220 25 12500 13000 782 713 400 to 600 @ 50Hz @ 60Hz V DRM/V RRM tq TJ typical 100 - 40 to 150 www.irf.com 1 ST380CH..C Series Bulletin I25169 rev. C 04/00 ELECTRICAL SPECIFICATIONS Voltage Ratings Voltage Type number Code 04 ST380CH..C 06 V DRM/V RRM, max. repetitive peak and off-state voltage V 400 600 VRSM , maximum nonrepetitive peak voltage V 500 700 I DRM /I RRM max. @ TJ = TJ max mA 100 On-state Conduction Parameter I T(AV) Max. average on-state current @ Heatsink temperature I T(RMS) Max. RMS on-state current I TSM Max. peak, one-cycle non-repetitive surge current ST380CH..C 960 (440) 80 (110) 2220 12500 13000 10500 11000 Units Conditions A C 180 conduction, half sine wave double side (single side) cooled DC @ 25C heatsink temperature double side cooled t = 10ms A t = 8.3ms t = 10ms t = 8.3ms t = 10ms KA2s t = 8.3ms t = 10ms t = 8.3ms KA2s No voltage reapplied 100% VRRM reapplied No voltage reapplied 100% VRRM reapplied Sinusoidal half wave, Initial TJ = TJ max. I 2t Maximum I2t for fusing 782 713 553 505 I 2 t Maximum I2t for fusing 7820 0.85 t = 0.1 to 10ms, no voltage reapplied (16.7% x x IT(AV) < I < x IT(AV)), TJ = TJ max. V T(TO) 1 Low level value of threshold voltage V T(TO) 2 High level value of threshold voltage r t1 r t2 V TM IH IL Low level value of on-state slope resistance High level value of on-state slope resistance Max. on-state voltage Maximum holding current Typical latching current V 0.88 (I > x IT(AV)),TJ = TJ max. (16.7% x x IT(AV) < I < x IT(AV)), TJ = TJ max. m 0.24 1.58 600 mA 1000 T J = 25 C, anode supply 12V resistive load V (I > x IT(AV)),TJ = TJ max. I = 2900A, TJ = TJ max, t = 10ms sine pulse pk p 0.25 Switching Parameter di/dt Max. non-repetitive rate of rise of turned-on current t d ST380CH..C 1000 1.0 Units Conditions A/s Gate drive 20V, 20, t 1s TJ = T J max, anode voltage 80% VDRM Gate current 1A, di /dt = 1A/s g r Typical delay time Typical turn-off time s tq 100 V = 0.67% VDRM, TJ = 25C d ITM = 550A, TJ = T J max, di/dt = 40A/s, VR = 50V dv/dt = 20V/s, Gate 0V 100, t = 500s p 2 www.irf.com ST380CH..C Series Bulletin I25169 rev. C 04/00 Blocking Parameter dv/dt IRRM IDRM Maximum critical rate of rise of off-state voltage Max. peak reverse and off-state leakage current ST380CH..C 500 100 Units Conditions V/s mA T J = TJ max. linear to 80% rated V DRM TJ = TJ max, rated VDRM /V RRM applied Triggering Parameter PGM IGM +VGM -VGM Maximum peak gate power ST380CH..C 10.0 2.0 3.0 20 Units Conditions W A T J = TJ max, t 5ms p PG(AV) Maximum average gate power Max. peak positive gate current Maximum peak positive gate voltage Maximum peak negative gate voltage TYP. 200 IGT DC gate current required to trigger 100 40 2.5 VGT DC gate voltage required to trigger IGD VGD DC gate current not to trigger DC gate voltage not to trigger 1.8 1.0 T J = TJ max, f = 50Hz, d% = 50 T J = TJ max, t 5ms p V 5.0 MAX. 200 3.0 10 0.25 mA V V mA TJ = TJ max, tp 5ms T J = - 40C T J = 25C T J = 150C T J = - 40C T J = 25C T J = 150C Max. gate current/voltage not to trigger is the max. value which will not trigger any unit with rated VDRM anode-to-cathode applied Max. required gate trigger/ current/ voltage are the lowest value which will trigger all units 12V anode-to-cathode applied TJ = TJ max Thermal and Mechanical Specification Parameter TJ Tstg Max. operating temperature range Max. storage temperature range ST380CH..C -40 to 150 -40 to 150 0.09 0.04 0.02 0.01 9800 (1000) Units C Conditions RthJ-hs Max. thermal resistance, junction to heatsink RthC-hs Max. thermal resistance, case to heatsink F Mounting force, 10% DC operation single side cooled K/W DC operation double side cooled DC operation single side cooled DC operation double side cooled K/W N (Kg) g wt Approximate weight Case style 83 TO - 200AB (E-PUK) See Outline Table www.irf.com 3 ST380CH..C Series Bulletin I25169 rev. C 04/00 RthJ-hs Conduction (The following table shows the increment of thermal resistence RthJ-hs when devices operate at different conduction angles than DC) Conduction angle 180 120 90 60 30 Sinusoidal conduction Single Side Double Side 0.010 0.012 0.015 0.022 0.036 0.011 0.012 0.015 0.022 0.036 Rectangular conduction Single Side Double Side 0.007 0.012 0.016 0.023 0.036 0.007 0.013 0.017 0.023 0.037 Units Conditions TJ = TJ max. K/W Ordering Information Table Device Code ST 1 38 2 0 3 CH 4 06 5 C 6 1 7 8 1 2 3 4 5 6 7 - Thyristor Essential part number 0 = Converter grade CH = Ceramic Puk, High temperature Voltage code: Code x 100 = VRRM (See Voltage Rating Table) C = Puk Case TO-200AB (E-PUK) 0 = Eyelet terminals (Gate and Auxiliary Cathode Unsoldered Leads) 1 = Fast-on terminals (Gate and Auxiliary Cathode Unsoldered Leads) 2 = Eyelet terminals (Gate and Auxiliary Cathode Soldered Leads) 3 = Fast-on terminals (Gate and Auxiliary Cathode Soldered Leads) 8 - Critical dv/dt: None = 500V/sec (Standard selection) L = 1000V/sec (Special selection) 4 www.irf.com ST380CH..C Series Bulletin I25169 rev. C 04/00 Outline Table ANODE TO GATE CREEPAGE DISTANCE: 11.18 (0.44) MIN. STRIKE DISTANCE: 7.62 (0.30) MIN. 25.3 (0.99) DIA. MAX. 0.3 (0.01) MIN. 14.1 / 15.1 (0.56 / 0.59) 0.3 (0.01) MIN. 25.3 (0.99) DIA. MAX. 40.5 (1.59) DIA. MAX. GATE TERM. FOR 1.47 (0.06) DIA. PIN RECEPTACLE 2 HOLES 3.56 (0.14) x 1.83 (0.07) MIN. DEEP 6.5 (0.26) 4.75 (0.19) Case Style TO-200AB (E-PUK) All dimensions in millimeters (inches) 25 5 42 (1.65) MAX. 28 (1.10) Quote between upper and lower pole pieces has to be considered after application of Mounting Force (see Thermal and Mechanical Specification) M a xim u m A llo w ab le H e at sin k T e m p e ra t u re (C ) M a xim u m A llo w a b le H e at sin k T e m p e ra t ure (C ) 15 0 14 0 13 0 12 0 11 0 10 0 90 80 70 60 50 40 0 ST 3 8 0 C H ..C S e rie s (Sin g le S id e C o o le d ) R thJ-hs (D C ) = 0 .0 9 K /W Co n duc tio n Ang le 3 0 60 90 1 20 18 0 150 140 130 120 110 100 90 80 70 60 50 40 30 20 0 200 ST 3 8 0 C H..C Se rie s (Sin g le S id e C o o le d ) R thJ-hs (D C ) = 0 .0 9 K / W C on duc tio n Pe rio d 30 60 90 120 180 DC 10 0 20 0 3 0 0 4 0 0 5 00 60 0 70 0 80 0 A v e ra g e O n - st a t e C u rre n t (A ) Fig. 1 - Current Ratings Characteristics 40 0 600 8 00 10 0 0 1 20 0 1 4 00 A v e ra g e O n -st a te C u rre n t (A ) Fig. 2 - Current Ratings Characteristics www.irf.com 5 ST380CH..C Series Bulletin I25169 rev. C 04/00 Maximum Allowable Heatsin k Tem perature (C) 150 140 130 120 110 100 90 80 70 60 50 40 30 20 0 M a xim u m A llo w a b le H e a ts in k T e m p e r at u re ( C ) 1 50 1 40 1 30 1 20 1 10 1 00 90 80 70 60 50 40 30 20 0 ST380CH..C Series (Double Sid e Cooled) R th J- hs (DC) = 0.04 K/W ST 3 8 0 C H..C Se rie s (D o u b le Sid e C o o le d ) R thJ-hs (D C ) = 0 .0 4 K / W C o nduc tio n A ng le C o nduc tio n Pe riod 30 30 60 90 120 180 DC 500 1 00 0 1 50 0 2 0 00 2 50 0 60 90 120 180 400 800 1200 1600 Average O n-state Curren t (A) Fig. 3 - Current Ratings Characteristics A v e r a ge O n - st a t e C ur re n t (A ) Fig. 4 - Current Ratings Characteristics M ax im u m A v e ra g e O n -st a t e P o w e r Lo ss (W ) M a xim u m A v e r a ge O n - st a te P o w e r Lo ss (W ) 2 5 00 18 0 12 0 9 0 6 0 3 0 3 50 0 3 00 0 2 50 0 2 00 0 1 50 0 C o nduc tio n Pe rio d 2 0 00 R M S Lim it 1 5 00 DC 180 120 90 60 30 R M S Lim it 1 0 00 C on duc tio n Ang le 1 00 0 5 00 0 0 500 10 0 0 15 0 0 2 0 00 2 5 00 A v e ra g e O n - sta t e C u rre n t (A ) Fig. 6- On-state Power Loss Characteristics 5 00 S T3 8 0 C H ..C S e rie s T J = 1 5 0 C 0 40 0 8 00 1200 1 60 0 S T 3 8 0 C H ..C S e rie s T J = 1 5 0 C 0 A v e ra g e O n - sta t e C u rre n t (A ) Fig. 5- On-state Power Loss Characteristics Peak Half Sine W ave On -state Current (A) 11000 10000 9000 8000 7000 6000 5000 1 At Any Rated Load Condition An d W ith Rated VRR M Applied Following Surge. In itial TJ = 150C @ 60 Hz 0.0083 s @ 50 Hz 0.0100 s P e ak H a lf S in e W a v e O n -st a t e C u rr e n t (A ) 12000 13000 12000 M a x im u m N o n R e p e t it iv e Su r g e C ur re n t V e rsu s P u lse T ra in D u ra tio n . C o n tr o l O f C o n d u c t io n M a y N o t Be M a in ta in e d . In itia l T J = 1 5 0 C 11000 N o V o lt a g e R e a p p lie d Ra t e d V R RM R e a p p lie d 10000 9000 8000 7000 6000 ST 3 8 0 C H ..C S e rie s 0.1 P u lse Tr a in D u ra t io n (s) Fig. 8 - Maximum Non-Repetitive Surge Current Single and Double Side Cooled ST380CH..C Series 10 100 5000 0.01 1 Num be r O f Eq ual A m plitu de Half C yc le C urrent Pulses (N ) Fig. 7 - Maximum Non-Repetitive Surge Current Single and Double Side Cooled 6 www.irf.com ST380CH..C Series Bulletin I25169 rev. C 04/00 10000 Instantan eous On -state Curren t (A) TJ = 25C TJ = 150C 1000 ST380CH ..C Series 100 0.5 1 1.5 2 2.5 3 3.5 In stantaneous O n-state V olta ge (V) Fig. 9 - On-state Voltage Drop Characteristics Tr a nsie n t T h e rm al Im p e da n c e Z thJ-hs ( K/ W ) 0 .1 S T3 8 0 C H ..C Se rie s 0 .0 1 S te a dy St a t e V a lu e R t hJ- hs = 0 .0 9 K / W ( S in g le S id e C o o le d ) R t hJ- hs = 0 .0 4 K / W ( D o ub le S id e C o o le d ) ( D C O pe ra tio n ) 0 .0 0 1 0 .0 0 1 0 .0 1 0 .1 Sq u a re W a v e P ulse D u ra t io n (s) 1 10 Fig. 10 - Thermal Impedance ZthJ-hs Characteristics 1 00 In st a nt an e o u s G a t e V o lt a g e (V ) R e c t a n g u la r g a t e pu lse a ) R e c o m m e n de d lo a d lin e fo r ra te d d i/d t : 2 0 V , 1 0 o h m s; t r< =1 s b ) R e c o m m e n de d lo a d lin e fo r 10 <=3 0% rate d di/d t : 10 V, 1 0o hm s (1) (2) (3) (4) (a ) (b ) Tj=-4 0 C PGM PGM PGM PGM = = = = 1 0W , 2 0W , 4 0W , 6 0W , tp tp tp tp = = = = 4m s 2m s 1m s 0 .6 6 m s t r<= 1 s Tj=25 C Tj=15 0 C 1 (1) (2) (3) (4) V GD IG D 0 .1 0 .0 0 1 0 .0 1 D e v ic e : ST 3 8 0 C H ..C Se rie s 0 .1 1 F re q u e n c y L im it e d by P G ( A V ) 10 1 00 In st a n t an e o u s G at e C ur re n t ( A ) Fig. 11 - Gate Characteristics www.irf.com 7 |
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