International 1R|Rectifier SERIES T.RIA MEDIUM POWER PHASE CONTROL THYRISTOR MODULES T- Modules SOA 70A 90A Features Electrically isolated base plate 3500 Vp yg isolating voltage Standard JEDEC package Simplified mechanical designs, rapid assembly High surge capability Large creepage distances Description These modules are intended for general purpose appii- cations such as battery chargers, welders and plating equipment, regulated power supplies and temperature and speed control circuits. The semiconductors are electrically isolated from the metal base, allowing common heatsinks and compact assemblies to be built. Major Ratings and Characteristics Parameter T5ORIA | T70RIA | TSORIA | Units hay 50 70 90 A rams) 80 110 141 A leon 50Hz| 1310 1660 1780 A 60Hz| 1370 1740 1870 A rt 50Hz| 8550 13860 | 15900 | As 60Hz| 7800 12650 | 14500 | As ryt 85500 | 138500 | 159100 | A*s Vorm - arm 100 to 1200 Vv Ty -40 to 125 D143 Bulletin 127105T.RIA Series ELECTRICAL SPECIFICATIONS Voltage Ratings Type number| Voltage Vary max. repetitive | V_.,,max. non-repetitive| V_.,,max. repetitive | 1,.,,max. Code reverse voltage reverse voltage peak off-state voltage|T =@ 25C Vv Vv Vv HA 10 100 150 100 100 20 200 300 200 100 TSORIA.. 40 400 500 400 100 T7ORIA.. 60 600 700 600 100 TSORIA.. 80 800 900 800 100 100 1000 1100 1000 100 120 1200 1300 1200 100 On-state Conduction Parameters TS5ORIA |T7ORIA | T9ORIA] Units | Conditions Ly AY) Maximum average on-state current | 50 70 90 A__| 180 conduction, half sine wave @ Case temperature 70 70 70 C Li yams) Maximum RMS on-state current 80 110 141 A Irs, Maximum peak, one-cycle on-state, 1310 | 1660 | 1780 | A |t=10ms] Novoltage [Sinusoidalhalf wave, Non-repetitive surge current 1370 | 1740 | 1870 | A_|t=83ms| reapplied _|initialT,=T, max 1100 | #400 | 1500 | A |t=10ms | 100%V,,,, 1150 | 1460 | 1570 | A_ |t=8.3ms| reapplied It Maximum It for fusing 8550 | 13860 | 15900 | As |t~10ms | Novoltage | Sinusoidal half wave, 7800 | 12650 | 14500 | As |[t=8.3ms| reapplied _| Initial T ya tymax 6050 | 9800 | 11250] As |t=10ms | 100% Vere 5520 | 8950 | 10270] As |t=8.3ms! reapplied ?/t | Maximum I?t for fusing 85500 | 138500 | 159100) As | t+0.1 to 10ms, no voltage reapplied Vi cro) Low level value of threshold voltage 0.97 | 0.77 0.78 | Vio |(16.7%xxx law < I=6ys. 450 Alus For repetitive value use 40% non-repetitive. Per JEDEC Std. RS397, 5.2.2.6 Triggering P.y Maximum peak gate power 10 12 12 W | tp < 5ms, TT, max. Poay Maximum average gate power 2.5 3.0 3.0 W | f=50Hz, T yt ymax. +lay Maximum peak gate current 2.5 3.0 3.0 A |tp < 5ms, T)=T, max. -V4, Maximum peak negative gate 10 10 10 V_ | tp < 5ms, T,=T, max. voltage Vg Maximum required DC gate 4.0 4.0 40 Vi} Ty-40C current to trigger 2.5 2.5 2.5 Vo] T= 25C Anode supply = 6V, resistive load 1.5 4.5 1.6 Vs | T,= T, max.) Ra = 10Q D144T.RIA Series Triggering ler Maximum required DC gate 250 270 270 mA | T,=-40C current to trigger 100 120 120 mA | T = 25C Anode supply = 6V, resistive load 50 60 60 mA | T,=T,max. |Ra=10Q Von Maximum gate voltage 02 | 02 | 02 | V_ | @T,=T,max., rated Vo, applied that will not trigger | Maximum gate current @D - that will not trigger 5.0 6.0 6.0 mA | @ T,=T,max., rated V_,,, applied Switching t od Typical turn-on time 0.9 0.9 0.9 HS Ty= 25C , Vd = 50% Vagus by, = SOA l 7 500mA, tr <= 0.5ys, tp >= 6us te Typical reverse recovery time 3.0 3.0 3.0 ys T,= 125C, 1, 50A, tp = 300ys, di/dt = 10Ajus ty Typical turn-off time 110 110 110 ps T,=T, max, |, 50 A, tp = 300s -difdt = 15 Ajys, Vr = 100 V, linear to 80% V,.,, Blocking lanm ory Max. peak leakage current 15 mA | T,=T, max. Allseries. Vins RMS isolation voltage 3500 Vv 502, circuit to base, all terminals shorted T,=25C,t=1s dv/,, Crit. rate of rise off-state voltage 500 Vius | T,= 125C. linear to 80% rated V_,,,. series. (2) Thermal and Mechanical Specifications T, Junction operating temperature -40to 125 C Ts 9 Storage temperature range -40to 150 c Rin Jc Maximum internal thermal a : resistance junction to case 0.65 0.50 0.38 | K/W | Perjunction, DC operation Pinc-s Thermal resist., case to heatsink 0.2 K/W | Mounting surface flat, smooth and greased T Mounting Module to 1.310% Nm _ | M3.5 mounting screws (3) torquet10% heatsink Non-lubricated threads Terminals 3410% Nm M5screwterminals; non-lubricated threads wt Approximate weight 54 g See outline table Case style D-56 "T" Type (2) 1000v/|1s 2S90 suffix; i.e. T7ORIA8O S90, available on request. (3) A mounting compound is recommended and the torque should be rechecked after a period of about 3 hours to allow for the spread of the compound AR Conduction (per Junction) The following table shows the increment of thermal resistance Rinuc When devices operate at different conduction angle than DC) Conduction angle TSORIA.. | T7ORIA.. | T9ORIA.. | Units Conditions 180 0.08 0.07 0.05 K/w Per junction 120 0.10 0.08 0.06 K/W Ty =T, max. 90 0.13 0.10 0.08 KW 60 0.19 0.14 0.12 K/W 30 0.31 0.24 0.20 K/w 180 0.06 0.05 0.04 K/W Per junction 120 0.10 0.08 0.06 KW. T, = T, max. 90 0.14 0.11 0.09 KW 60 0.20 0.15 0.12 K/w 30 0.32 0.24 0.20 K/w D145T.RIA Series Ordering Information Table Circuit configuration ** Device Code T.RIA + T 50 | RIA| 40 oO @ S @ Module type @ Current code @) Circuit configuration ** ) Voltage code: Code x 10 = Van, (See Voltage Ratings Table) Outline Table 32(1.26)Max. 25+ -1 23.5(0.93) 41 (1.61) Max. ~ 14 18 g| (0.43); (0.71) 271.06) 30 (1.18) All dimensions in millimeters (inches) CONTAINS BERYLLIUM OXIDE CERAMIC - All dimensions in millimeters (inches) @ Moy contain Beryllium Oxide - Dimensions are nominal Ceramic, ond under normal . . . cireumstonces is non hazardous. - Full engineering drawings are available @ Do not open, cut or grind. on request @ Unserviceoble parts must be disposed of os harmfu! waste. HARMFUL D146Cc MAXIMUM ALLOWABLE CASE TEMPERATURE T.RIA Series 130 oO 130 120 : 120 - i o @ 110 onduction 110 | 100 100 30 30 80 80 70 70 60 60 50 MAXIMUM ALLOWABLE CASE TEMPERATURE 50 40 0 10 20 30 40 50 60 0 10 20 30 40 50 60 70 80 930 AVERAGE ON-STATE CURRENT - A AVERAGE ON-STATE CURRENT ~ A Fig. 1 - Current Ratings Characteristics Fig. 2 - Current Ratings Characteristics = 80 1 2 0.5K, DELTA Rt wn 70 1 . <7 0 15K/w 3 120 . O.2K/W S 50 /. 0.3K/W S 60 60 30 g& 50 wl RMS LIMIT <= 10 2 Ss Q x 0 10 20 30 4C 50 60 70 80 20 40 65 80 100 = =120 < = AVERAGE ON-STATE CURRENT ~ A MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. 4 -On-state Power Loss Characteristics D147T.RIA Series PEAK HALF SINE WAVE ON~STATE CURRENT A 1200 1000 800 600 400 NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES - N Fig. & - Maximum Non-Repetitive Surge Current INSTANTANEOUS GATE VOLTAGE - V 1 1400 ON R VERSUS PULSE DURATION. CONTROL CONDUCTION MAY NOT BE MAINTAINED | INITIAL TJ = 125 C 1200 VOLTAGE REAPPLI TED VRRM REAPPLIED AT RA H RATED VRRM APPLIED FOLLOWING SURGE. NITIAL Ty = 125 C @ 60 Hz 0.0083 s @ 50 Hz 0.0100 s 1000 800 600 1 T. . : PER JUNCTI R JUNC 400 04 ] 1 PULSE TRAIN DURATION s Fig. 6 - Maximum Non-Repetitive Surge Current 10 100 PEAK HALF SINE WAVE ONSTATE CURRENT A 1000 100 R JUNCTI T. IA. TJ = TSORIA.. Ty = INSTANTANEQUS ON-STATE CURRENT A 1 0 i 2 3 4 5 INSTANTANEOUS ON-STATE VOLTAGE V Fig. 7 - On-state Voltage Drop Characteristics TE2 gate pulse p= bb ) Recommended load line for , rated di/dt : 20V, 30chms SOW, tp=ims ) tr=0.5us. to>sbus, line 20W, tp=25ns commended lood line for _ <=30% roted di/dt : 20v, OW, tp=Sms tr=Ips, tp>=Bus 1E1 1E0 T)t(2) 4) AN BY PG(AV) 1E-1 1E-3 1E-2 1E-1 1E0 161 1E2 1E3 INSTANTANEOUS GATE CURRENT A Fig. 8 - Gate Characteristics D148C MAXIMUM ALLOWABLE CASE TEMPERATURE 130 120 110 100 90 80 70 60 50 9 MAXIMUM AVERAGE ON-STATE POWER LOSS W MAXIMUM AVERAGE ON-STATE POWER LOSS W AVERAGE ON-STATE CURRENT ~ 4 Fig. 9 - Current Ratings Characteristics T.RIA Series cc T7ORIA,. \ @ Conduction angle Conduction Period 10 20 30 40 50 60 70 80 0 20 40 60 80 OO 120 MAXIMUM ALLOWABLE CASE TEMPERATURE AVERAGE ON-STATE CURRENT - A Fig. 10 - Current Ratings Characteristics 180 0.1K /W-DELTA R 120 0 oni . a 0.2K/W 90 0 3K /W 60 - 30 RMS LIMIT Concuction ongle Q 10 20 30 6400650 6070 20 40 50 Bo 100, 120 AVERAGE ON-STATE CURRENT A MAX MUM A_LOWASLE AMGIEN TEMPERATURE ~ C Fig. 11 -On-state Power Loss Characteristics 140 DC L/ / | | 120 HL i80 ~ JN L_o.1K/w DELTA RL! 120 4 ae [eto 0.15K iol 90 f oN [oe 0.2K/W ! 100 p- 60-3 Pg Q 30 Ky jf - oS | 80 | Lis P -4 Fhe : - Vy ! go [RMS LMT / 1 ORA. PEND i T= 125C KO PXLONAY Hi I ! 40 ep | | om SRS N : (ors mm Im : rT ' 20 | Pram LR SRA @ 5x/w Tm I [-~ PS Conduction Period | POSSESS F potty | 5 QO 10 20 30 40 50 60 70 50 90 100 IC 20 40 6a 80 106 120 AVERAGE ON~STATE CURRENT - A MAXIMUM ALLOWABLE AMBIENT TEMPERATLRE - C Fig. 12- On-state Power Loss Characteristics D149T.RIA Series 1600 "800 -Taxmmuw NON REPEIIVE SURGE CURRENT |__VERSUS PULSE TRAIN DURATION. CONTROL OF CONDUCTION MAY NOT BE MAINTAINED. HINITIAL TJ = 125 C4 AT ANY ON RATED VRRM APPLIED FOLLOWING SURGE. NITIAL TJ = 125 @ 60 Hz 0.0083 s < < | | 2 S we a 1600 cw 1400 50 Hz 0.0100 oe \ NO VOLTAGE REAPPLIED 3 a ERATED VRRM REAPPLIED. LJ LT | w & 1400 \ 4 1200 is Say 4 Z 1200 N 5 N | lis w 1000 = NN NN x = 1000 = NJ Ww S 4 & 800 4 800 hs a T7ORIA.. re T7ORIA.. mL TT 2 PER JU ad [-PER JUNCTION x L | J Litt v 600 x 600 x 1 10 100 s 01 A 1 oO & NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES - N PULSE TRAIN DURATION 5s Fig. 13- Maximum Non-Repetitive Surge Current Fig. 14 - Maximum Non-Repetitive Surge Current 1000 Q oO oO 25 5 1 c 25 C 1 INSTANTANEOUS ON-STATE CURRENT ~ A 0 1 2 3 4 5 INSTANTANEOUS ON-STATE VOLTAGE v Fig. 15 - On-state Power Loss Characteristics 1E2 lar gate pulse _ a 0) Recommended load lire for = 2 , p= MS rated di/dt ; 20V, 200hms &CM= 60W, tp=1ms tr=0.5us. tp>=6u ' > Recommenged ieee line for PCM= 30W, tp=2ms <=30% rated di/dt : 15V, 400hms = ins ta"us, (p> bus PGM= 12W, tp=5ms (a m b) INSTANTANEOUS GATE VOLTAGE - V a O FREQUENCY LIMI BY PG(AV) O/9ORIA., iN |\] 1E-3 1E-2 1E-1 1EO 11 E2 ES INSTANTANEOUS GATE CURRENT A Fig. 16 - Gate Characteristics D150cc MAXIMUM ALLOWABLE CASE TEMPERATURE ~ 130 120 110 100 30 80 70 60 50 0 MAXIMUM AVERAGE ON-STATE POWER LOSS - W MAXIMUM AVERAGE ON-STATE POWER LOSS W TQORIA.. {\ @ 1 10 20 30 40 50 60 70 80 90 100 AVERAGE ON-STATE CURRENT A Fig. 17 - Current Ratings Characteristics 160 140 120 100 80 60 \ | Lh uction a 40 20 AVERAGE ON-STATE CURRENT ~ A T.RIA Series 9 130 120 o 110 Conduction 100 90 80 70 60 50 30 40 QO 20 40 60 80 100 120 140 160 MAXIMUM ALLOWABLE CASE TEMPERATURE AVERAGE ON-STATE CURRENT A Fig. 18 - Current Ratings Characteristics Sky 0 QO 10 20 30 40 50 60 70 80 90 20 40 66 80 100 120 MAXIMUM ALLOWABLE AMBIENT TEMPERATURE C Fig. 19 -On-state Power Loss Characteristics 180 160 140 120 100 80 60 40 20 L. tion Period AVERAGE ON-STATE CURRENT A 0 QO 20 40 60 8&0 100 120 140 160 20 40 60 80 100, 120 MAXIMUM ALLOWABLE AMBIENT TEMPERATURE ~ C Fig. 20 - On-state Power Loss Characteristics D151T.RIA Series 1600 1800 AT ANY RA RATED VRRM APPLIED FOLLOWING SURGE. INITIAL TJ = 125 C @ 60 Hz 0.0083 s MAXI Cu VERSUS PULSE TRAIN DURATION. CONTROL. OF CONDUCTION MAY NOT BE MAINTAINED. 1600 Td = 125 C Lf << I | bE a Zz Zz w lo w% 1400 50 Hz 0.0100 s VOLTAGE REAPPLIED 5 5 TED VRRM REAPPLI QO oO Ww w 1400 = +200 = % A L 14200 5 5 w 1000 Ww =x a 1000 2, = Ss ut 2 @ 800 A Bao a T Le T . < PER JU 2 ER JUNC Y 600 ~ 600 = 1 10 100 x 01 4 1 Ld Ww a oO NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES N PULSE TRAIN DURATION s Fig. 21 - Maximum Non-Repetitive Surge Current Fig. 22 - Maximum Non-Repetitive Surge Current 1000 oO oO JUNCTI oO QORIA.. TJ = 125 C TOORIA,. TJ = 25 INSTANTANEOUS ON-STATE CURRENT A 1 0 1 2 3 4 INSTANTANEOUS ONSTATE VOLTAGE V Fig.23 - On-state Power Loss Characteristics = 1E0 x I S T7ORIA.. = T9ORIA.. w 1E-1 Zz