125A Avg. (200 RMS) Fast Switching SCR TPE OR Pen oe ya 16-50 45 Inches Millimeters Symbo Min. Max. Min. Max. A 7.750 8.100 196.85 205.74 A, 7.750 8.100 196.85 205.74 B 063.172 1.60 437 kor No 6 Scuw 7 Dd 980 1.090 24.89 27.69 an aeaet E 1.212 1.250 30.78 31.75 F 250 630 6.35 16.00 ee J 3.25 82.55 aig M 530 755 13.46 19.18 a N 1.040 1.077 26.42 27.36 Ra) Q 2.250 57.15 oT 260 290 6.60 7.37 Z 340 8.64 ew %-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). 1. Complete threads to extend to within oW Notes 1,3 2% threads of seating plane. 2. Angular orientation of terminals is undefined. 3, Pitch diameter of %-16 UNF-24 (coated) threads (ASA B1.11960). 4. Dimension J denotes seated height Features: with leads bent at right angles. @ Center fire, di/namic gate @ High di/dt with soft gate control Seating Plane Conforms to TO-93 Outline e High frequency operation Applications: @ Sinusoidal waveform operation to 20 KHz @ Inverters for @ Rectangular waveform operation to 20 KHz UPS @ Low dynamic forward voltage drop AC motor control e Low switching losses at high frequency Induction heating Westinghouse Lifetime Guarantee @ Cycloconverters ry e Choppers Zu ra rst) Pan Ordering Information 2 Me Voltage Current Turn- off Gate Current Leads 5 = , ; 4 uw Example Obtain optimum device performance for your app.ication by Turn | Gate | Pen selecting proper Order Code. off |Current Type T607 rated at 125A average with Vorm = 1000V, Ig = 150 ma, tq = 30 psec and standard flex lead order as *for 10 usec turn-off, consult factory 267SHOLSIHAHL Peay Wee = (200 RMS) Fast Switching Wom Peele SCR 10-50 us T607_.13 Voltage Blocking State Maximums @ (Ty 126C) Symbol! - ; Repetitive peak forward blocking voltage .V .. Yprm [100] 200 | 300 | 400 | 500 | 600 | 700 | 800 | 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 5 6.0m sec, V eee eee eee VRSM 200 | 300 | 400 | 500 j 600 | 700 | 800 | 900 {1000 |1100 |1200 | 1300 Forward leakage current, mA peak ........., lpbpm << 25 > Reverse leakage current, mA peak ......... : Iramw < 25 > Current Conducting State Maximums (Ty = 125C) Symbol T607_ 13 RMS forward current, A......... 'T (rms) 200 Ave. forward current, A ......... thay) 125 One-half cycle surge current), A... 'tsm 3500 It for fusing (for times > 8.3 ms), A?-sec. 7 Pt, 50,000 Forward voltage drop at ITM = 6254 and Ty = 25C, Vo... Vim 2.35 Min. repetitive di/dt 7 @ , A/psec ... di/dt 200 Switching Maximum Forward Voltage VS. Forward Current (Ty -2 25C) Symbol g 7 s Max. turn-off time, IT 150A. > Ty := 125C, dipn/dt = 12.5 s 6 A/usec, reapplied dv/dt 20V/,, sec linear to BV DRM, ysec@@. tg 10 to 50 > T gy = 125C Typ. turn-on-time, [T == 100A $ 5 Vp= 100V, usec... ton 3.5 a Min. critical dv/dt, exponential to V : o Ty: 125C, Viusecd@. DRM av/dt 300 o> 4 J = T607. 13 Min. di/dt non-repetitive, oS iT Wwa@, A/usec oo. ll, di/dt 800 > 3 z a Bd Gate 6 2 . a Maximum Parameters (Ty = 25C) Symbol E vy & 1 bs Gate current to trigger at Vy 12V, mA lot 150 ar oO PA Gate voltage to trigger at Vp =12V,V... Vet 3 s aa Non-triggering gate voltage. Ty = 125C, 1 100 1000 10,000 4 and rated Vorm: Vio eee V6pMm 0.15 F dc t, ITM, Peak Amperes o Peak forward gate current, A ........... (GT 4 orward Current, P Peak reverse gate voltage, V........... Vorm 5 Transient Thermal Impedance VS. Time Peak gate power, Watts .............., Pom 16 ue Average gate power, Watts ............ PG(av) 3 , i nie 5 Thermal and Mechanical o Symbol! 2 c Min., Max. oper, junction temp.,C ...... Ty 40 to 4.125 5 Min., Max. storage temp.,C ........... Tstg 40 to +150 Max. mounting torque, in Ib. @......... 300 2 Max. Thermal resistance > 8 Junction to case, C/Watt ........, Reuc 13 Case to sink, lubricated, C/Watt ...... Recs 68 3 ~ Es => ss. Consult recommended mounting procedures. E 9 @ Applies for zero or negative gate bias. os Per JEDEC RS-397, 6.2.2.1. Fs With recommended gate drive. 82 Higher dv/dt ratings available, consult factory. 0001 .001 Per JEDEC standard AS-397, 5.2.2.6. @ For operation with antiparallel diode, consult factory. Time,t, SecondsFast Switching SCR T607_.13 Sinusoidal Current Data 10, Sine Wave Ty = 125C : Vp = 600V. 2017, 28 Vassov Energy Loss Joules/Pulse 10 2 304 6 100 2 a3 04 5 2K Pulse Width Microseconds ENERGY PER PULSE FOR SINUSOIDAL PULSES 1K To- 65C Vp = 600V 201) 25 VR<5OV Peak Operating Current Amperes 1 3 a 6 10 2 3 4 6 100 2 1K 2K Pulse Width - Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (Tc = 65C) 10K 6k 4k 3K 2k 1K 600 400 300 Te Vp 800. 2019. 25 Vas sov Peak Operating Current Amperes 1 10 2 204 6 100 2 34 6 1K 2K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIOTH (Tc = 90C) 125A Avg. (200 RMS) Up to 1200 Volts sens 10 sr; Trapezoidal Wave Current Data 10.0 06 04 03 Ty=1 Vip = B00V. 20/). 25 uf VRssov 02 Energy Loss Joules/Pulse 3.4 6 2 34 %& 4K 2 4 10 2 100 Pulse Width - Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 50A/usec) 10.0 Square Wave Ty=4 Vp = 600V, 2017, 25 VR s5ov 2 4 1K 2 34 6 TOK Energy Loss Joules/Puise 0 304 6 10 2 100 Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 100A/usec) 10.0 Square Wave di/at = 6 4 3 2 Nw Sb @ 10 06 04 03 02 Ty Vp = 600V. 20/?,.25 VRs5ov Energy Loss Joules/Pulse 01 10 203 4 68 100 1K Pulse Width Microseconds ENERGY PER PULSE FOR TRAPEZOIDAL PULSES (di/dt = 200A/usec} 269 FAST SWITCHING THYRISTORSSHOLSIHYAHL ONIHOLIMS LSV4 270 lay woe (200 RMS) Up to 1200 Volts 10-50 us Trapezoidal Wave C Current Data Ce Square Te 7 65C Vp = G00V, 2047.25 uf VR S50V Peak Operating Current Amperes 2 304 6 10 2 304 6 100 2 304 1K 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A/usec) y 3 3 ~~ op 66 Te = 65C Vp = 600V. 2017.25 ut VR s50v Peak Operating Current Amperes = 2 a4 6 2 3 10 100 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) 1 1K 4 6 10K Square y a A g 88 8 ~ we o 8 68 8 . 3 To Vp = 600V. 204? .25 ut Va ss5ov Peak Operating Current Amperes = 10 234 6 100 1 Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 200A/usec) 1K Fast Switching ler T607__13 Trapezoidal Wave Current Data c: 1 Square Wave Te = 90C Vp = 600V, 2047.25 uf Vassov Peak Operating Current Amperes 1 10 2034 100 1K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 50A/usec) 1 Square Wave To = 90C Vp = 600V, 2042 ,.25 uf v 50V 1 10 304 6 100 2 3064 6 1K 2 304 6 10K Pulse Width Microseconds MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT vs. PULSE WIDTH (di/dt = 100A/usec) Peak Operating Current Amperes 2 10K Square Wave 6K = 4k 3K 2K B S88 z 8 2 3 wp. a6 Te = 90C Vp = 600V. 2042 ..26 uf Vpssov Peak Operating Current Amperes 8 _ 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 = 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