150A Avg. (235 RMS) Fast Switching SCR to 1200 Volt T607__15 nn ie nae Inches Millimeters Symbol Min. Max. Min. Max. A 7.750 8.100 196.85 205.74 A, 7.750 8100 196.85 205.74 B .063 172 1.60 4.37 @D .980 1.090 24.89 27.69 E 4.212 1.250 30.78 31.75 F .250 .630 6.35 16.00 J 3.25 82.55 : M 530 .755 13.46 19.18 N 1.040 1.077 26.42 27.36 Qa 2.250 57.15 oT .260 .290 6.60 7.37 Z 340 8.64 ow %-16 UNF-2A Creep Distance.75 in. min, (19.05 mm). Strike Distance.69 in. min. (17.53 mm). (In accordance with NEMA standards.) FinishNickel Plate. * Approx. Weight8 oz. (227 g). Ls 1, Complete threads to extend to within 2% threads of seating plane. 2. Angular orientation of terminals is undefined. 3. Pitch diameter of %-16 UNF-2A Conforms to TO-93 Outline (coated) threads (ASA B1.11960). 4. Dimension J denotes seated height Features: with leads bent at right angles. e Center fire, di/namic gate High di/dt with soft gate control @ High frequency operation Applications: e Sinusoidal waveform operation to 20 KHz wee for @ Rectangular waveform operation to 20 KHz @ Low dynamic forward voltage drop AC motor control e Low switching losses at high frequency Induction heating Westinghouse Lifetime Guarantee e Cycloconverters @ Choppers Ordering Information Voltage Current Turn-off Gate Current It (av) Example Obtain optimum device performance for your application by selecting proper Order Code. aah da) Gate Current | of Current Payoh) Type T607 rated at 150A average with Vpam = 1000V, Ig7 = 150 ma, tq = 30 usec and standard flex lead order as *for 10 usec turn-off, consult factory FAST SWITCHING nda h Asi RCla to)150A Avg. (235 RMS) Up to 1200 Volts sR esse 7c Fast Switching SCR T607__15 SHOLSIHAHL ONIHOLIMS LSV4 Higher dv/dt ratings available, consult factory. Per JEDEC standard RS-397, 5.2.2.6. @ For operation with antiparallel diode, consult factory. 0001 Voltage Blocking State Maximums @ (Ty 125C) Symbol! - Repetitive peak forward blocking voltage , V .. Yprm 4100] 200 | 300 | aco | soo | eco | 700 | 00 | 900 1000 | 1100 | 1200 Repetitive peak reverse voltage .V >........, VRRM 100 | 200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 |1000 }1100 1200 Non-repetitive transient peak reverse voltage, t S5.OM SOC, Vo... cece c cece ences Vasm 200 | 300 | 400 | 500 j 600 | 700 | 800 | 900 |1000 11100 |1200 1300 Forward leakage current, mA peak .......... lpbRu < 25 > "Reverse leakage current, mA peak ........... RRM gg 25 > Current Conducting State Maximums (Ty = 125C} Symbol T607_ _ 15 RMS forward current, A ........., 'T(ems) 235 Ave. forward current, A ........, Tay) 150 One-half cycte surge current, A .. l+sm 4000 12t for fusing (for times > 8.3 ms), *-sec. Pty 65,000 Forward voltage drop at I-tpq == 625A and Ty = 25C, V.... 0... Vim 2.1 Min. repetitive di/dt @@ , A/usec... di/dt 250 Switching Maximum Forward Voltage VS. Forward Current (Ty = 25C) Symbol g 7 so Max. turn-off time, IT -=150A. > Ty = 125C, dig/dt =12.5 = 6 Av/usec, reapplied dv/dt = T1)=125 20V/ 4 sec linear to .8V DRM, psec @@. tq 10 to 50 J= Typ. turn-on-time, IT = 100A S 5 Vp= 100V3, usec 2... ton 3.5 5 Min. critical dv/dt, exponential to V : o Ty = 125C, ViusecDO@. DRM: av/dt 300 g 4 Min. di/dt non-repetitive, oO Boe. A/usec ..... el, di/dt 800 > 3 z $ Gate 5 2 Maximum Parameters (Ty = 25C) Symbol E 1 Gate current to trigger at Vp == 12V. mA let 150 g Gate voltage to trigger at Vp =12V,V... Vet 3 s Non-triggering gate voltage, Ty = 125C, 1 100 1000 10,000 and rated Vong. V7. ee VepmM 0.15 Peak forward gate current, A ...... (GTM 4 Forward Current, ITM, Peak Amperes Peak reverse gate voltage, V........... Vorm 5 Transient Therma! Impedance VS. Time Peak gate power, Watts ............... Pom 16 20 Average gate power, Watts ............. PGlav} 3 Thermal and Mechanical j Symbol! 2 Min., Max. oper. junction temp., C ...... Ty 40 to 4.125 : Min., Max. storage temp.,C ......,.... Tstg 40 to +150 5 Max. mounting torque, in Ib.@........, 300 Max. Thermal resistance is 8 08 Junction to case, C/Watt ........., Rec 13 . Case to sink, lubricated, C/Watt...... R ecs .08 3 = .06 3 : BS .04 Consult recommended mounting procedures. eo Applies for zero or negative gate bias. s =. Per JEDEC RS-397, 5.2.2.1. ES With recommended gate drive. 8 2 o .001 01 A 1 10 100 Time,t, SecondsFast Switching SCR T607__15 150A Avg. (235 RMS) Up to 1200 Volts 10-50 us Sinusoidal Current Data 10.0 Sine 10 06 04 03 ye 02 Vip = 600V, 2042.25 uf VR <50V Energy Loss Joules/Pulse 01 10 2 34 8 100 2 304 6 1K 2K Pulse Width Microseconds ENERGY PER PULSE FOR SINUSOIDAL PULSES To = 65C Vp = 600V. 2047.25 uf Va <50Vv Peak Operating Current Amperes 10 2 34 6 400 2 304 6 VK 2K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 65C) 10K 6K 4k 3K 2 1K 600 400 200 Te = 90C Vp = 600V. 2047, 25 Vps50v Peak Operating Current Amperes 1 2 3.44 6 10 100 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 90C) 1K 2K Trapezoidal Wave Current Data Square 02 Ty = 125C Vp = 600V, 2042,.25 uf Vas 5ov 410 2 304 6 100 2 304 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 01 Square Wave di/dt = vow a ao yn wh oo 0 06 04 03 T y= 125C Vip = 600V, 2042, 25 uf Vas5ov 10 2 304 6 100 2 304 6 iK 2 304 6 10K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 100A/usec) 02 Energy Loss Joules/Pulse 01 10.0 Square Wave di/dt = 4000 Rou be ow ro 10 06 04 03 7 uF Vip = 800, 2042,.25 uf VRs5ov 02 Energy Loss Joules/Pulse 01 10 203 4 6 100 1K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 200A/usec) 273 FAST SWITCHING THYRISTORSONIHOLIMS LSV4 274 Peak Operating Current Peak Operating Current Amperes Peak Operating Current Amperes 150A Avg. PLE TVS) Up to 1200 Volts sens len7rs Trapezoidal Wave Current Data (Tc = 65C) 8s 8 Ty= Vp = S00V. 20/2,.25 uf Vassov 10 6 100 2 1K 468 Pulse Width Microseconds ; MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A/usec) y oa = o 10K 10K Square Wave 4 To = 65C Vp = 600V. 2047.25 uf VR ssov 10 3064 6 1K 10 2 304 6 100 2 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) 10K Square Wave 6K = 4k 3K 2K 1K 600 400 300 200 100 60 40 30 Tee Vp = 600V, 204? 25 uf VRS50V 10 2034 6 100 2 3 K 2 4 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A/usec) 20 10 10K Fast Switching SCR T607__15 Trapezoidal Wave Current Data ' (Te = 90C) Square Wave 40) Toe Vp = 600V. 204), 25 uf Vassov 20 Peak Operating Current Amperes 1 10 2 3.04 6 100 2 3064 6 1K 2 394 6 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A/usec) 1 Square Wave 6K = 60 oe 00 Te Vp = 600V, 2042. 25 uf VRss5ov ry 3 Peak Operating Current 1 D 2 304 6 1 2 304 1K 2 6 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) 1 Tee Vp 600v, 204), 25 uf VRpssov Peak Operating Current Amperes 1 10 2 934 6 190 203 4 1K 2 934 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A /usec)K DIA. HOLE H DIA. ae Np sBTEeF NTIAL QO RED WHITE Y J a Lit E OLA, = i ti | r f ~ | MARKING c B f | en a ' 4 1.245 / 31.62 MM A ACROSS FLATS | ! i | 7 me .750-16 UNF - 2A THD. ep CASE NUMBER T60 NOMINAL DIMENSIONS STRIKE DISTANCE = .65 INCH / 16.5 MM MIN. CREEPAGE DISTANCE = .65 INCH / 16.5 MM MIN. SYM. A B C D E F G H J K INCHES || 1.06 55 1.50 2.25 1.07 7.91 63 281 7.91 146 MM 26.9 14.0 38.1 57.2 27.2_| 200.9 | 16.0 7.14. | 200.9 | 3.71 ALL DIMENSIONS ARE REFERENCE