__ 306 D MM 79259237 0031336 36 SGS-THOMSON ky T25-17 | MICROELECTRONICS 2N 3654 2N 3658 S G S-THOMSON FAST SWITCHING THYRISTORS a GLASS PASSIVATED CHIP a HIGH STABILITY AND RELIABILITY a HIGH di/dt AND dv/dt RATINGS 5 tg <10 ps Thread: 1/4" -28 UNF : type N M6 on request : type N + suffix M DESCRIPTION TO 48 SCR designed for high frequency power switching (Metal) applications. ABSOLUTE RATINGS (limiting values) Symbol Parameter Value Unit ItrRMs) RMS on-state Current (1) Te = 40 C 35 A ltcav; Mean on-state Current (1) Te =40 C 22.5 A Itsm Non Repetitive Surge Peak on-state Current t=8.3 ms 210 A (T, initial < 120 C) (2) t=10ms 200 Pt [?t Value for Fusing t=10 ms 200 As di/dt Critical Rate of Rise of on-state Current (3) 400 A/us Tstg Storage and Operating Junction Temperature Range 65 to 150 C T, 65 to 120 C 2N 36.. Symbol Parameter Unit 54 55 56 57 58 Vor Repetitive Peak off-state Voltage (4) 50 100 200 300 400 Vv VRRM (1) Single phase circuit, 180 conduction angle. (2) Half sine wave. )la=1A digfdt=1 Als. (4) T, = 120C. THERMAL RESISTANCES Symbol Parameter Value Unit Rit g-e) Junction-case for D.C. 1.45 CW Rin (e-h) | Contact (case to heatsink) 0.40 CW February 1989 146 552N 3654 > 2n3658_ S G S~THOMSON 30E 0 M@@ 7529237 0031337 T my OT R17 GATE CHARACTERISTICS (maximum values) T-25-17 Pam = 60 W (tp = 500 ps) IFam = 10 A (tp = 500 1s) Vaem = 5 V Pa ayy = 1W Veem = 15 V (tp = 500 ps) ELECTRICAL CHARACTERISTICS Symbol Test Conditions Min. Typ. Max. Unit lar Tj = 25C Vp #12V Ri =339 180 mA Pulse Duration > 20 ps Vert Tj = 25C Vp = 12 V RL =33Q 1.5 Vv Pulse Duration > 20 ps Veo Tj = 120 C Vp = Vorm RL =3.3 kQ 0.2 N7 ln Tj = 25C [7 = 500 mA Gate Open 70 mA IL Tj = 25 Vp =12V Ig = 360 mA 140 mA Pulse Duration > 20 us - Vim Tj = 25C lm =25A tp =10ms 2,05 Vv Iban Tj = 120 C Voam Specified 6 mA lnAM Tj = 120 C Varo Specified 6 mA tot Tj = 25 Vb = Vorm Ip 325A 1 Ls Ig = 500 mA dig/dt = 5 A/us tq Tj = 120 C I7 =25A VR =15V 10 us Vp = 67 % Vorm di/dt = 5 A/us dv/dt = 200 V/us Gate Open dv/dt* Tj = 120 C Gate Open 200 Vis Linear Slope up to Vp = 67 % Vprm * For higher guaranteed values, please consult us. PACKAGE MECHANICAL DATA TO 48 Metal @ 240,2 @4+0,2 \f ff = 7" Q125 wo 3 Pn | i] | moxr 3 8| 4 i a g | | 3 zt 1 _ el | tity { s T 9/16" over flats 6 sided Hl ( Se oS 1 | & | - N | M 174 - 28 UNF 16,5 maxi Cooling method : by conduction (method C) Marking : type number Weight: 13.5419 Polarity : anode to case Stud torque : 3.5 mAN min - 3.8 MAN max. 26 {a7 SGS-THOMSON Y/ irenosuectnax:es 56_ _ G S-THOMSON ~ 2N 3654 2N 3658 30E D Mm 7929237 0031338 1 aN SINUSOIDAL CURRENT PULSE DATA PARAMETER : Itm (A) 600 400 300 200 150 100 50 30 103 10 ENERGY PER PULSE, E, (md) i 40 402 4049 PULSE WIDTH, ty {ps) FIG.4 ~ ENERGY PER PULSE FOR SINUSOIDAL PULSES. 403 PARAMETER : F (Hz) 100 400 1000 2500 5000 4 402 Itm a PEAK ON-STATE CLARENT, Iqy (A) 40 402 403 PULSE WIDTH, tp (ys) FIG.2 - MAXIMUM ALLOWABLE PEAK ON-STATE CURRENT VERSUS PULSE WIDTH FOR T, = 85 C. 103 PARAMETER : F (Hz) 4100 400 4000 NOTES : 2500 1. Vp = Vq = 200 volts. 5000 2. A.C Snubber, C = 0.4 UF, 10? A-a30. PEAK CN-STATE CURRENT, Iyty (A) 40 102 404 PULSE WIDTH, tp (js) 3/6 ik SGS-THOMSON 572N 3654 > 2nN3658 -S G S-THOMSON 30E D) MM 7929237 00313395 3 Topo TRAPEZOIDAL CURRENT PULSE DATA ~25-17 PARAMETER : I ty (a) 600 400 300 200 150 400 50 30 403 ~ = nm ~ o ENERGY PER PULSE, EQ (md) 4 40 402 404 PULSE WIDTH, tp (ps) FIG.4 ~ ENERGY PER PULSE FOR TRAPEZDIDAL PULSES. 404 PARAMETER : F (Hz) 100 = 400 di/dt = 100 A/ps 4000 2500 40% di/dt Ity PEAK ON~STATE CURRENT, Iyy (A) 10 402 403 PULSE WIDTH, tp (ps) FIG.5 WAXIMUM ALLOWABLE PEAK ON-STATE CURRENT VERSUS PULSE WIDTH FOR Te = 65 C. 103 PARAMETER : Z F (Hz) 100 E 400 : 4000 NOTES : z i. Vp = Va = 200 Volts. & 2. A.C Snubber, C = 0.4 pF, 3 10 R= 330. uw E at - w + a Mm << Ww a 410 402 404 PULSE WIDTH, tp (ps) FIG.6 - MAXIWUM ALLOWABLE PEAK OM-STATE CURRENT VERSUS PULSE WIDTH FOR T, = 90 c. 46 [7 SGS-THOMSON SY7 treroevecinonces 58S G S-THOMSON --- eo 2N 3654 2N 3658 ' 30E D Ml 7929237 0031340 T i 1-25-17 200 4000 = _, 100 = << wn ~ ov i Ke E = z= ee Lu a gq uw ac ec Cc o a Oo ul il tu < Ee eK = 2 a a 10 wi wo =z a ze oO a lo und 2 a FOR Loss al, =< CALCULATIONS uz 100 Q USE : ze H w oe Vto = 1.6 v ie ey = 12 mQ 4 50 0 4 2 a 4 4 2 5 10 INSTANTANEOUS ON-STATE VOLTAGE, Vy () PULSE BASE WIDTH, t (ms) FIG.7 WAXIWUN ON-STATE CONDUCTION FIG.@ NON REPETITIVE SUB-CYCLE SURGE CHARACTERISTIC (Tz ~ 120 C). ON-STATE CURRENT AND [t RATING (INITIAL Ty = 120 t). 200 INITIAL Ty < 120 C 160 mo nm ao o CURRENT, Itsq (A) NON REPETITIVE SURGE PEAK ON-STATE s 4 40 102 103 NUMBER OF CYCLES (at 50 Hz) FIG.8 - NON REPETITIVE SURGE PEAK ON-STATE CURRENT VERSUS NUMGER OF CYCLES. 5/6 kr SGS-THOMSON ; 52N 3654 2N3658 SS G S=-THOMSON 1-25-17 JOE D Mm 7929237 OO313541 1 3 & Ee Oo i? cm ea 3 2 a ri J D2 = = 4 -65 ~40 -20 0 +25 JUNCTION TEMPERATURE, Tz (C) FIG.40 - RELATIVE VARIATION OF GATE THIGGER CURRENT AND HOLDING CURRENT VERSUG JUNCTION TEMPERATURE, 108 10 GATE VOLTAGE, Vg (V) Ty =~ 65C Ty = + 25C il Ty = +420 C 10-2 1074 1 GATE CURRENT, Ig (A) FIG.44 ~ GATE TRIGGER CHARACTERISTICS. 40 = 40 o = wag eet N ui Qo =z = a & = 4 = a << = ec Wd x= - be z= tu eI 2 = 104 r 10-3 10-2 40-1 4 10 TIME, t (s) FIG.42 ~ TRANSIENT THERMAL IMPEDANCE JUNCTION 10 CASE. 66 G7 SGS-THoMsON 7 wickesesTRanres 60