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2N685
SCR THYRISTOR, 16A, 200V, TO-48
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: SOLID STATE
- Product type: Thyristors - SCR Modules
- SCR Mod; SCR THYRISTOR, 16A, 200V, TO-48; SCR Module Type:Single SCR; Peak Repetitive Off State Voltage:200V; Gate Trigger Current Max:40mA; Average Forward Current:16A; On State RMS Curr
| Delivery and price | |
|---|---|
| Units per pack | 1 |
| Price | 9.56 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
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Sj 46BLOOMFIEL FARRAN D , STREETNEW<br>**----- End of picture text -----**<br>
NEW JERSEY 07003
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www.solidstateinc.com<br>**----- End of picture text -----**<br>
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AobsG K<br>**----- End of picture text -----**<br>
- REVERSE BLOCKING TRIODE THYRISTORS
- _. , designed primarily for half-wave ac control applications, such as motor controls, heating controls and power supplies; or whereever half-wave silicon gate-controlled, solid-state devices are needed. e Glass Passivated Junctions and Center Gate Fire for Greater Parameter Uniformity and Stability
- @ Blocking Voltage to 800 Volts
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SILICON<br>coNTROLLED RECTIFIER<br>25 AMPERES RMS<br>25-800 VOLTS<br>**----- End of picture text -----**<br>
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MAXIMUM RATINGS (T, = 125°C unless otherwise noted.)<br>[TSCS™~™CSRattingg’S| Symbol, | Value [Unit<br>*Peak Repetitive Off-State Blocking Voltage (1) VRRM _ Volts<br>2N681 or 25<br>2N682 v 50<br>2N683 DRM 100<br>2N6842N685 200150<br>2N686 250<br>2N687 300<br>2N688 400<br>2N689 500<br>2N690 600<br>2N691 700<br>2N692 800<br>“Peak Non-Repetitive Reverse Voltage VASM Volts<br>2N681 35<br>2N682 75<br>2N683 150<br>2N684 225<br>2N685 300<br>2N686 350<br>2N687 400<br>2N688 500<br>2N689 600<br>2N690 720<br>2N691 840<br>2N692 960<br>*RMS On-State Current (All Conduction Angles) IT(RMS) | 25) | Amp<br>*Peak Non-Repetitive Surge Current ITSM<br>(One cycle, 60 Hz, preceded and followed<br>by rated current and voltage)<br>Circuit Fusing Considerations 93 a2s<br>(Ty = -40 to +125°C, t = 1.0 to 8.3 ms)<br>—SSSSSSSSC~*dCS<br>[Peak Gee Power<br>icin<br>Paver*Peak ForwardGate PowerGate Current 2N681-2N689 IGm|| 808 | atswaAmp<br>2N690-2N692<br>*Peak Gate Voltage — Forward VEGM Volts<br>Reverse VRGM<br>765 10 +150<br>**----- End of picture text -----**<br>
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TO-48<br>**----- End of picture text -----**<br>
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[Sudtore OSC<br>**----- End of picture text -----**<br>
2N681 thru 2N692
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THERMAL CHARACTERISTICS<br>[Characteristic<br>SSSSC*dSCSSSSSSS mbt de de<br>ELECTRICAL CHARACTERISTICS (Ty = 25°C unless otherwise noted.)<br>Pe haracterintig TT Symbor [in te Mex [Unt<br>* Average Forward or Reverse Blocking Current Ip(av).'R(AV)<br>(Rated Vprm or Varn. gate open,<br>Ty = 125°C) 2N681-2N684 6.5<br>2N685 6.0<br>2N686 5.5<br>2N687 5.0<br>2N688 4.0<br>2N689 3.0<br>2N690 2.5<br>2N691 2.25<br>2N692 2.0<br>Peak Forward or Reverse Blocking Current lpbRM.'RRM mA<br>(Rated Vorm or Varn. gate open, Ty = 125°C) 2.0<br>*Peak On-State Voltage VT™ 2.0 Voits<br>(It = 50.3 A peak, Pulse Width < 1.0 ms,<br>psaemcmrmesem<br>Gate [Trigger] [Current,] [Continuous] [dc] TOIGT TO mA<br>(Vak= 12 Vdc,Ry = 502) 40<br>"(Vak = 12 Vde, Ry = 50 2,T¢ = -65°C) 80<br>Gate Trigger Voltage, Continuous dc VGT Volts<br>(Vak= 12 Vdc,Ry =50 2) , 2.0<br>"(VaK= 12 Vdc,Ry = 502, Ty = -65°C) . 3.0<br>[inaivacstevecomommTTTCriticalHolding*Gate Non-TriggerRateCurrentvonmmtssonrscvaroof RiseVoltageof Off-State Voltage ||dv/dtVGD os |7.330 | TYV/usVoltsmA<br>(Rated Vprwmw,. Exponential Waveform, Ty = 125°C,<br>Gate Open)<br>“Indicates JEDEC Registered Data.<br>FIGURE 1 — AVERAGE CURRENT DERATING FIGURE 2 — MAXIMUM ON-STATE POWER DISSIPATION<br>Nel TTT TTT TT TT TT ” | ft |<br>Fyy5| |New |Ppt | | | 28 4<br>2" CONS ae Oe<br>5 s|NSS ee g ap"ok ar<br>z PTI SRE chor ante = | e-conouctionancte | 0 |“ A | |<br>eogoPEON{ttt tT INANSANSATOT TT 2Janae46 ALLIS<br>oe rESASS OBL Agee<br>Be {=} NNN || & 12 KA<br>eg COCOONS ED rine<br>eeee | 1200} TS ea$80 GEO<br>7|||<br>EERE02.0 4.0 REPEAT6.0 8.0 10 12 14 16 0 2.0 40 6.0 8.0 10 12 14 16<br>IT(AV). AVERAGE ON-STATE CURRENT (AMP) IT(AV). AVERAGE ON-STATE CURRENT (AMPS)<br>**----- End of picture text -----**<br>
2N681 thru 2N692
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FIGURE 3 — ON-STATE CHARACTERISTICS FIGURE 4 — MAXIMUM NON-REPETITIVE SURGE CURRENT<br>109, > 150<br>SSSS SS eeef NLeeeeLL [Reve<br>of8 iV Nn.<br>(iSEE| | ie}= 130NE<br>Ae eee<br>_<br>pCO 2 ff Zoo __ + | | PA); TTT te<br> feo" iereeee OSC<br>COC)2a is aBSELLOWED Os BY RATE sore<br>Od a FA a A too 1 Jt 1 1 11 N<br>ERE eto<br>5<br>zi .<br>zu [f/f | | | {| | tt |<br>=< 20 | | tt | tT<br>e<br>zt] | Vii | | | [| {| {| |<br>= | | | | | tt |<br>= 1.0 Sy Sy<br>kA ry —<br>AA<br>ost To |<br>Py iy | Th hl hE UT UT CT<br>ott y | tT | tT tT tT ft fy<br>0.1 (iti | | | | | tt<br> 1.0 1.4 1.8 2.2 2.6 3.0<br>Vtm, MAXIMUM INSTANTANEQUS ON-STATE VOLTAGE (VOLTS)<br>FIGURE 5 — THERMAL RESPONSE<br>1.0Fee<br>_ 7<br>S$< 05 -—+—}+—a a ++ +4} + eeA soo tteeeA tteeAH<br>Sa) ee<br>2 ott! Lit Ti eer tt Ta EP ET ET<br>28 “CO ee [er]<br>all<br>= _ 2s a Sa ee ee<br>220 Se Se<br>a = 0.05 a a ee ee eee<br>2 ampere<br>= wt tt tt tt Ti Tt TP PE te<br>A~ aaa<br>sol tt TTT Tt Titi Tt Titi tt TT tt tT ei<br>0.1 0.2 0.3 0.5 1.0 2.0 3.0 5.0 10 20 = 30 50 100 200 300 500 1.0k 2.0k 30k 5.0k 10k<br>t, TIME (ms)<br>**----- End of picture text -----**<br>
2N681 thru 2N692
## TYPICAL CHARACTERISTICS
FIGURE 6 — PULSE TRIGGER CURRENT
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100 ~~ —<br>70 =< Sss————ESEes [= OF F-STATE VOLTAGE = 12V<br>— soosfb ttt op [tot] = 802<br>a een cena oo<br>= ok NIL ee ee ee<br>c SN ; hak Poi; Ty<br>3 | blo<br>- ooo - —+<br>3 rR ot oo<br>~ 2.0 pet aft!<br>vol La il U<br>0.2 0.5 1.0 2.0 5.0 10 20 50 100 200<br>PULSE WIDTH (ms)<br>FIGURE 8 — GATE TRIGGER VOLTAGE<br>: “LET<br>SE ioe<br>8 |<br>< ><br>a eeeeee<br>q 04 ><br>ees ed es Oe Oe OOO<br>PCEEEEEEEE]02<br>-60 -40 = =-20 0 20 40 60 80 100 120 140<br>Ty, JUNCTION TEMPERATURE (°C)<br>**----- End of picture text -----**<br>
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FIGURE 7 — GATE TRIGGER CURRENT<br>_ 2.0 fT | | ft fy OFF-STATE VOLTAGE = 12V<br>< Ry = 502<br>EWN<br>LS A A, A A A<br>> CL fT TN TO TT<br>eS A NG<br>o<br>= { | | [| | Wi] IT fT<br>& 30<br>o 1 | | | | [ | IN |<br>-60 -40 -20 0 20 40 60 80 100 120 140<br>Ty, JUNCTION TEMPERATURE (°C)<br>FIGURE 9 — HOLDING CURRENT<br>.<br>2 IN ee<br>= 10<br>Zz a ee ee ee eee eee<br>S ee<br>= a<br>wL_|Jee| [ +; | | | j | |<br>-60 -40 -20 0 20 40 60 80 100 120 140<br>Ty, JUNCTION TEMPERATURE (°C)<br>**----- End of picture text -----**<br>
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A \ tT<br>NTTQa OPH<br>4 So i! Mo |<br>K i L<br>WAM<br>eee<br>— \ SEATING PLANE<br>J |-—— ———} TO ACCEPT TERM. , liad<br>=— 114-28 UNF NUT .<br>{= STUD: ANODE<br>TO-48<br>om MILLIMETERS INCHES _!<br>| [ MIN | MAX | MIN | MAX<br>| A | 15.34 | 15.60 | 0.604 | 0.614 |<br>| B | 1400 | 1420 | 0.551 | 0.559<br>| ¢ | 20.70 [| 24.13 | 0.815 | 0.950<br>| F | os9 | 216 | 0.035 | 0.085<br>| H | 375 | 441 | 0148 | 0.174 |<br>| J | 1067 | 11.56 | 0.420 | 0.455 |<br>| akKt | 978699 | 10547.75 | 0. 3827 5 | 0.3050.476 ||<br>L_t | 1270165 | 12834.06 | 00 . 500065 | 0. 160505 |<br>**----- End of picture text -----**<br>
Updated at June 7, 2026
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