Fast Switching SCR T707__30 300A Avg. (475 RMS) Up to 1400 Volts 25-60 us inches Millimeters Symbol Win Max. Min. Max. A 9.76 10.00 247.90 254.00 A, 10.18 10.42 258.57 264.67 B .063 172 1.60 4.37 oD 1.490 37.85 E 1.620 1.750 41.15 44.45 F .430 810 1092 20.57 J 4.000 101.60 M .530 765 1346 19.18 N 1.04 1.08 26.42 27.43 Qa 3.100 78.74 oT .330 .350 8.38 8.89 Zz .440 11.18 ow %-16 UNF-2A Creep Distance1.76 in. min. (44.91 mm). Strike Distance .81 in. min, (20,70 mm). (In accordance with NEMA standards.) FinishNickel Plate. Approx. Weight16 oz. (454 g). 1. Compiete threads to extend to within 2% threads of seating plane. 2. Angular orientation of terminals is undefined. 3. Pitch diameter of %-16 UNF-2A T7 utline (coated) threads (ASA B1.1-1960). 0 Out 4, Dimension "J" denotes seated height Features: with leads bent at right angles. e Center fired di/namic gate oe @ High di/dt with soft gate control Applications: e High frequency operation e Inverters for e Sinusoidal waveform operation to 20 KHz UPS e Rectangular waveform operation to 20 KHz Induction heating @ Low dynamic forward voltage drop AC motor drives e Low switching losses at high frequency @ Cycloconverters e Westinghouse Lifetime Guarantee e Choppers e Crowbar Ordering Information Voltage Current Turn-off Gate Current FAST SWITCHING Example Obtain optimum device performance for your application by | Type T 707 rated at 300A average with Vorm = 800V. selecting proper Order Code. Igt = 150 ma,tq = 40 psec and standard flex lead order as | Vottage Current A Pepa 287 THYRISTORS300A Avg. (475 RMS) Up to 1400 Volts 25-60 us Fast Switching SCR T707__30 Cys [ese-ii-r dare ONIHOLIMS iSV4 Voltage Blocking State Maximums (Ty - 126C) Symbol Repetitive peak forward blocking voltage .V.. Vprn $100 | 200] 300! 400 | 500 | 600 | 700 | 800 | 900 |1000 | 1100} 1200] 1400 Repetitive peak reverse voltageV =... VRRM | 100 | 200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 |1000|1100| 1200] 1400 Non-repetitive transient peak reverse voltage, t c5Omsegy.... eee Vasm {200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 | 1000 |1100 11200 | 1300 | 1500 Forward leakage current, mA peak .......... lpRM <_ 30 +> Reverse leakage current, mA peak ........... InRM << 130 > Current Conducting State Maximums (Ty = 125C) Symbol T707 30 RMS forward current, A ......... 'Tirms) 475 Ave. forward current, A ......... Ittav) 300 One-half cycle surge current@, A... TSM 8000 12t for fusing (for times > 8.3 ms) A? sec. ~ rt, 265,000 Forward voltage drop at|TM=625A andTJ=25C,V 2... Vim 1.45 Min. repetitive di/dt , A/usec ... di/dt 400 O@@ Switching (Ty = 25C) Symbol Maximum Forward Voltage Drop, Vs. Forward Current 7 Max. turn-off time, | T = 400A, 2 Ty = 125C, dig/dt =25 s A/usec, reapplied dv/dt = - 6 20V/ysec. linear to .8V DRM, psecO tq 25 to 60 s Typ. turn-on-time, IT = 1000A 5 T J= 125C Vp = 300VO. usec... ton 3.0 5 Min. critical dv/dt, exponential to VpoRM- Oo Ty = 125C, V/psec@@......7 0... dv/dt 300 o Min. di/dt, non-repetitive,@ a 4 1 morse OO di/dt 800 2 7707.30 > Gate 2 3 Maximum Parameters o (Ty = 25C) Symbol 2 e& 2 Gate current to trigger at Vp = 12V, MA '6T 150 e Gate voltage to trigger at Vp = 12V,V... Vet 3 z 1 Non-triggering gate voltage, Ty = 125C, % and rated Vopays Vio-- seer eee VGDM 0.15 s Peak forward gate current, . en yo : 10 100 1 10,000 100, Peak reverse gate voltage, V........... GRM Forward Current, ITM, Peak Amperes Peak gate power, Watts ...........-... Pom 16 Average gate power, Watts ............ PGiav) 3 Thermal and Mechanical Symbol Transient Thermal Impedance VS. Time A Min., Max. oper. junction temp., C ...... Ty 40 to +125 Min., Max, storage temp., C ........... Tstg 40 to +15C Max. mounting torque, in Ib. @......... 360 Max. Thermal resistance 08 Junction to case, C/Watt......... Reuc 10 Case to sink, Jubricated, C/Watt...... Recs .05 Consult recommended mounting procedures. Applies for zero or negative gate bias. @ Per JEDEC RS-397, 5.2.2.1. @ With recommended gate drive. Higher dv/dt ratings available, consult factory. @ Per JEDEC standard RS-397, 5.2.2.6. For operation with antiparallel diode, consult factory. 288 Z@ cit). 'C/Watt 8 0 DC Transient Thermal Impedance Juntction To Case, .001 01 Time, t, SecondsFast Switching SCR T707_ 30 cL) Wek era Nis Up to 1400 Volts 25-60 us Sinusoidal Current Data 10.0 Sine yw eB a ve 2 a 10 06 04 03 ad Vy = 600v 2042, 25 uf. Amps V_s5ov 10 2 304 6 100 2 4 1 Pulse Width Microseconds . ENERGY PER PULSE FOR SINUSOIDAL PULSES Energy Loss Joules/Pulse 01 10K 4k aK 2K 1K 600 400 300 200 Tce Vo = 600. 2042,.25 ut Va s50v 10 2 3 4 6 100 2 3 4 6 1K 2K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 65C) Peak Operating Current Amperes 10K 6K ak 3K 2k 1K 600 400 300 200 100 Toe Vp = 600V, 204) ,.25 uf Vp s5ov Peak Operating Current Amperes 10 34 8 100 2 34 6 1K 2K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 90C} Trapezoidal Wave Current Data 10.0 Square 10 06 04 03 02 Ty= Vp = 600V. 2047, 25 VR ssov 10 2 304 6 100 2 304 6 1K 2 3.4 6 10K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 50A/usec) 10.0 Energy Loss Joules/Pulse 01 Square Wave QO NK wria yw bh @ 10 06 04 03 02 Ty Vp = 600V, 2042, 25 VRS50V 10 2 304 6 100 2 304 6 1K 2 304 6 10K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 100A/usec) Energy Loss Joules/Pulse 01 10.0 Square Row A o we oO 10 06 O4 O3 02 Tye) Vp = 600V, 204). 25 ut : VRs5ov 10 2 304 6 100 2 304 6 1K 2 304 6 10K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 200A/usec) 289 Energy Loss Joules/Pulse 01 FAST SWITCHING THYRISTORS300A Avg. (475 RMS) Up to 1400 Volts 25-60 us Fast Switching SCR T707_ 30 SYHOLSIHAHL ONIHODLIMS 1SV4 290 10K, Peak Operating Current Amperes Peak Operating Current Amperes Peak Operating Current - Amperes Trapezoidal Wave Current Data (Tc = 65C 6K 4k ak 2K x 8 8 8 Te - 6BC Vp > 600V. 2047. 25 uf VR s50Vv 10 2 3 6 100 2 3.04 6 1K 2 304 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A/usec) 1 Square 8883 x 8 2 we a6 Ter Vp = GOV. 2047.25 Va s50v N 3 = oO 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 = 100A/usec) 10K Square Wave 400 300 200 20 Te = 65C Vp = 600V. 204? .25 uf VR S5OV 10 2 304 6 100 2 304 6 1K 2 304 6 10K Putse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A/usec) Trapezoidal Wave Current Data 1 Square Ter Vp = 600V, 2042.25 uf VRssov 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 10K 6K Square = 100A/usec axl 3K 2K 1K 400 300 100 40 Tor Vip = 600V. 2012.26 uf VaS50V 20 Peak Operating Current Amperes O15 2 3.4 6 100 2 34 6 1K 2 304 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) 10K 6K Square di/dt = 200A/usec ak 3K 2k 1K 600 400 300 200 100 60 40 30 T= 90C Vp = 600V, 204? ,.25 uf VRS5OV 304 6 10K 20 Peak Operating Current Amperes 10 10 2 34 6 490 2 34 6 4K 2 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A/usec)HOODIA. MEN E | , CASE NUMBER T70 NOMINAL DIMENSIONS STRIKE DISTANCE = .43 INCH / 10.9 MM MIN. CATHODE K DIA. HOLE POTENTIAL REO WHITE \ 1.750 / 44.45 MM ACROSS FLATS MARKING pe- .750-16 UNF - 2A THD. CREEPAGE DISTANCE = .43 INCH / 10.9 MM MIN. SYM. A B C D E F G H J K INCHES || 1.06 78 1.4/1 2.74 1.49 | 9.66 73 .343 | 10.06 | .146 MM 26.9 19.8 35.8 | 69.6 | 37.8 | 245.4 | 18.5 8.7) | 255.5 | 3.71 ALL DIMENSIONS ARE REFERENCE