350A Avg. itston et iss) Fast Switching SCR Up to 1200 Volts T727_ 35 15-60 us Symbol Inches Millimeters ymbo"" Min. Max. Min. Max. @D 2.250 2.290 57.15 58.17 D, 1.333 1.343 33.86 34.11 D, 2.030 2.090 51.56 53.09 H 1.020 1.060 25.91 26.92 oJ 135 145 3.43 3.68 J .075 .090 1.91 2.29 L 7.75 8.50 196.85 215.90 N .040 1.02 Creep Distance1.00 in. min. (25.40 mm). Strike Distance.69 in. min. (17.53 mm). (In accordance with NEMA standards.) Finish--Nickel Plate. Approx. Weight8 oz. (227 g). 1, Dimension H" is a clamped dimension. T72 Outline Features: Applications: e Center fired di/namic gate e Inverters e High di/dt with soft gate control UPS Induction heating e High frequency operation AC motor drives e@ Sinusoidal waveform operation to 20KHz e Rectangular waveform operation to 20KHz e@ Cycloconverters e@ Low dynamic forward voltage drop @ Choppers e Low switching losses at high frequency @ Crowbars e Lifetime Guarantee Ordering Information Voltage Current aI dirrola Gate Current FAST SWITCHING THYRISTORS Example Obtain optimum device performance for your application by selecting proper Order Code. Type 1727 rated at 350 A average with Vorm = 900V. Igt = 150 ma, tq = 30 ,ysec max. and standard control leadsorder as: aaa) Gate Voltage | Current Off |Current *for 15 and 20 usec VF data, consult factoryISTOP GIP a Terai eee! wT (550 RMS) Fast Switching Up to 1200 Volts ela. 15-60 us T727_ 35 Voltage Blocking State Maximums (T, = 125C) Symbol Repetitive peak forward blocking voltage .V .. Vonrm [100] 200] 300] 400 | 500 | 600 | 700 | 800 | 900 | 100011100] 1200 ]1400 Repetitive peak reverse voltage ,V.......... YarM | 100 | 200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 | 1000 | 1100 | 1200 }1400 Non-repetitive transient peak reverse voltage, tg 5.0 msec. Vi. eee eee VRSM 200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 11000 | 1100 | 1200 | 1300 1500 Forward leakage current, mA peak .......... lorM 30 : > Reverse leakage current, mA peak ......... tram 30 > Current Conducting State Maximums 7 (Ty = 125C) Symbol 172735 RMS forward current, A ......... 'T(rms) Ave. forward current, A ......... \t(av) 550 One-half cycle surge current@, A .. 'tsm 350 12 for fusing (for times > 8.3 ms) 7000 A? me 205,000 Forward voltage drop atl TM=625A andTJ=26C,V we. Vom 1.65 Min. repetitive di/dtA/usec ... @@@_ di/dt 300 Switching (Ty = 25C) Symbol Maximum Forward Voltage Drop VS Forward Current Max. turn- off time, IT = 400A a = 125C, dip/dt = 25 s Ayusec, reapplied dv/dt OO > 20V/usec linear to 0.8 VorRmM jw sec. tq 15 to 60 s Typ. turn-on-time, IT = 1000A E - Vp=300VG. usec... ton 3.0 ca = 125C Min. critical dv/dt, exponential to Vpajy- Ty = 125C, V/usec@... 2. TO. . dv/dt 300 5 Min. di/dt non-repetitive, . o A/usec (01010 En di/dt 800 S 3 Gate > 7 Maximum Parameters o (Ty = 25C) Symbol 3 6 Gate current to trigger at Vp = 12V, mA et 150 uw Gate voltage to trigger at Vp = 12V,V. Vet 3 E Non-triggering gate voltage, Ty = 125C, and rated Vony. Vi... ee ees VGDM 0.15 x Peak forward gate current, A ........... | GTM 4 = Peak reverse gate voltage, V........... Vorm 5 10 100 1,000 10,000 100,000 Peak gate power, Watts ............... Pom 16 Forward Current, ITM, Peak Amperes Average gate power, Watts ............ PGtav) 3 Thermal and Mechanical Symbol . Transient Thermal Impedance VS. Time Min., Max. oper. junction temp., C ...... Ty 40 to 4.125 Min., Max. storage temp..C ........... Tstg 40 to +150 . 06 . Max. mounting torque, in ib. O......... 2000 to 2400 : Max. Thermal resistance Double side cooled Junction to case, C/W Resc 06 Case to sink, lubricated, scywatt see Recs .02 g Consult recommended mounting procedures. @ Applies for zero or negative gate bias. @ Per JEDEC RS-397, 5.2.2.1. DC Thermal impedance Junction To Case @ With:recommended gate drive. 5.02 Higher dv/dt ratings available, consult factory. 8s Per JEDEC standard RS-397, 5.2.2.6. = For operation with antiparallel diode, consult factory. LY % a N 0 g 8 Time, t, SecondsFast Switching SCR T727_ 35 350A Avg. (550 RMS) Up to 1200 Volts Sinusoidal Current Data 10.0 Sine yy wr @ 1.0 10 06 04 03 Ty:t Vp 600V. 20/7, 25 ut Vassov 1 oO 2 3 4 6 1 oo 2 3 4 6 Pulse Width Microseconds ENERGY PER PULSE FOR SINUSOIDAL PULSES 02 Energy Loss - Joules/Pulse 01 1K 2K 10K 6K aK a 2K x 3 400 8 88 2 3S we 3.5 To: Vp = 600v, 2047, 25 VR s50v 10 2 3 4 6 100 2 3 4 6 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 65C) Peak Operating Current Amperes 8 10 1K 2K 10K 6K 4K 3K 2K Te Vp 600V. 20f). 25 ut Vas sev Peak Operating Current Amperes 1 10 2 304 6 100 2 304 6 1K 2K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 90C) 15-60 us Trapezoidal Wave Current Data 10.0 Wave de/dt = yn oe oO 10 06 04 02 Tyst Vip = 600V, 2012, 25 ut Vas sov 10 2 304 6 100 2 394 6 1K 2 304 6 10K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 50A/usec) 10.0 Energy Loss Joules/Pulse Square 64 di/dt = 100A/usec 4 N yw wb oO 10 06 04 03 02 Ty= 125C | vp = 800V, 2047, 25 uf VRS50V Energy Loss Joules/Pulse 01 304 6 10 20934 6 100 7 34 & 4K 2 10K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 100A/usec) 10.0 Square Wave divdt = 200A/usec Tyst Vp = 600V. 2042, 25 uf Vpssov 10 2 a4 6 100 2 304 6 1K 2 3.4 Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 200A/usec) Energy Loss Joules/Pulse 6 10K 309 FAST SWITCHING THYRISTORSSHOLSIYAHL 2 Tera tw ek er] Peak Operating Current Amperes Peak Operating Current Amperes Peak Operating Current Amperes 310 - 350A Avg. (550 RMS) Up to 1200 Volts 15-60 us Trapezoidal Wave C Current Data Te. 10K Square 6K] di/dt = 50A/usec 1K 600 400 300 200 20 To: 85C Vp * 600V. 2047, 25 ut Vp <50v 10 7 34 6 100 2? 3 4 8 4K 2 3 4 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A/usec) 10K Square Wave 6K = 4k aK 2K 20 Te 65C Vp GO00V. 264? 25 uf Vp <50v 10 364 6 100 2 304 6 1K 2 304 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) 2 10K Square Wave 6K J dia = 4K 3K 2K az 2500 Hz 1000 Hz 300 Hz 20 To 68C Vp 600 201? 25 uf Vassov = o 10 2 304 6 100 2 304 6 1K 2 364 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A/usec) Fast Switching SCR T727_ .35 Trapezoidal Wave current Data (Tc = 1 Square 6K] di/dt = 50A/usec 4K 3K 2K xz g3 8 n 3 3 8 2 3 we oo nN 3 Te = 90C Vip = 600V, 20f2. 25 ut VRs5ov 10 2 304 6 100 2 304 6 1K 2 304 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A /usec) Peak Operating Current Amperes oO 10K Square Wave 6K EP ai/dt= 4K 3k 2K 1K 600 400 300 200 100 60 4c 3c 20 Te 90C Vp 800V. 204), 25 uf Va s50V 2 3.04 6 1K 2 304 6 10K Peak Operating Current Amperes 10 10 2 364 6 100 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) 10K Square Wave 6k] a dt 2004 4K aK 2K 1K 660 400 300 200 100 60 40 30 To 90 Vp 600V. 20/7. 25 ut Va<50v 2034 6 4K 2 34 6 10K 20 Peak Operating Current Amperes 10 10 2 34 8 100 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A/usec)} CATHODE POTENTIAL TERMINAL FOR .187 INCH / 4.75 MM NOM. PUSH-ON TYPE TERMINAL - weet id + F DIA. TYP. G DEEP TYP. \ MARKING [canoer ey _ |. ___, p14. __- \ _ C DIA. GATE TERMINAL FOR .058 INCH / m 1.47 MM DIA. NOM. L_ sno PIN RECEPTACLE CASE NUMBER T72 STRIKE DISTANCE = .58 INCH / 14.7 MM MIN. NOMINAL DIMENSIONS CREEPAGE DISTANCE = 1.00 INCH / 25.4 MM MIN. SYM. |[_A B C D E F G H INCHES || 1.34 | 2.28 | 2.05 030 | 1.020/1.060 | .140 | .080 20 MM 34.0 | 57.9 | 52.1 0.76 | 25.91/26.92 | 3.56 | 2.03 20 ALL DIMENSIONS ARE REFERENCE