FT0618MH00TU

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## FAGOR =) 

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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|On-State|Current|Gate Trigger|Current|
|MT2|6 Amp|<|100 mA|
|Cz|Off-State Voltage|
|200|V|+|800|V|
|/,|[Aff]|
|Mot|4/|
|MT2|
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|MT2|This|series|of|TRIACs|uses|a|high|
|performance|PNPN|technology.|
|G|;|
|These|parts|are|intended|for|general|
|MT1|purpose|AC|switching|applications|
|with|highly|inductive|loads.|
|“Absolute|Maximum|Ratings,|according|to IEC IEC|publication|No.|134|
|Items)|RMS|On-state|Current|(full|sine wave)|||All|Conduction|Angle, Tc =|95|°C|6|A|
|ltsm|Non-repetitive|On-State|Current|Full|Cycle,|60|Hz|(t|=|16.7|ms)|63|A|
|ltsm|Non-repetitive|On-State|Current|Full|Cycle,|50|Hz|(t|=|20|ms)|60|A|
|2t|Fusing|Current|tp|=|10|ms,|Half|Cycle|18|A2s|
|lem|Peak|Gate|Current|20|Us|max.|Tj|=125°C|4|A|
|Peay)|Average|Gate|Power|Dissipation|Tj|=125°C|4|W|
|dl/dt|Critical|rate|of|rise|of|on-state|current|||Ig|=|2x|ler,|tr <100ns|50|Alus|
|f=|120|Hz,|Tj|=125°C|
|Tj|Operating|Temperature|(-40|+125)|ae|
|Tstg|Storage Temperature|(-40|+150)|°C|
|Tig|Soldering|Temperature|10s|max|260|°C|
|Vorm|Repetitive|Peak|Off|State|200|400|700|800|V|
|Vern|Voltage|

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“Absolute Maximum Ratings, according to IEC IEC publication No. 134<br>**----- End of picture text -----**<br>


Jun - 11 

## Electrical Characteristics 

|ler)|GateTrigger Current|Vp = 12Voc, Ri = 330,<br>T)= 25°C<br>|Q1=Q3}MAX]| <br>Q4 |MAX}|Vp = 12Voc, Ri = 330,<br>T)= 25°C<br>|Q1=Q3}MAX]| <br>Q4 |MAX}|25 |50 | 25]<br>50) <br> 25] 75 |50/100}|25 |50 | 25]<br>50) <br> 25] 75 |50/100}|mA<br> mA|
|---|---|---|---|---|---|---|
|Vor<br>Veo|GateTrigger Voltage<br>Vp = 12Voc, Ri = 330,<br>T,= 25°C<br>|Q1=Q4} <br>Gate Non Trigger Voltage |Vp =Vorm, RL=3.3KQ,<br>= T) = 125 °C} Q1=Q4]||MAX<br> MIN|1.3<br>0.2||V<br>V|
|ly<br>IL<br>dV/dt ®<br>(dV/dt)c®]|Holding Current<br>Latching Current<br>|Critical Rate ofVoltage Rise} <br>Critical rise rate ofCommu-|<br>tating off-statevoltage||; = 100mA, Gate open, T, = 25°C<br>lg = 1.2 lot, T) = 25°C<br>Q1,Q3,Q4 <br>Q2<br> Vo = 0.67 xVoam<br>, Gate open<br>T; = 125°C<br>(dlI/dt)c<br>= 2.7A/ms<br>T,= 125°C|MAX} <br> MAX}<br>|MAx}<br>MIN <br>MIN}|25150<br>|25|<br>50| mA<br>40} 70<br>|40]<br>70]<br>mA<br>60] 80 |80 |100<br> |500/1000}700}1009V/s<br>3 |8 | 5 |10|V/us|||
|Vim @<br>Vio) @<br>rq<br>lorw/larm<br>Ring-c)<br>Riny-a)<br>"|On-state Voltage<br>ThresholdVoltage<br>Dynamic Resistance<br>|Off-State Leakage Current<br>Thermal Resistance<br>Junction-Case<br>Thermal Resistance<br>Junction- Ambient||; = 7.5 Amp, tp = 380 us,<br>1;<br>= 25°C<br>Tj = 125°C<br>Tj = 125°C<br>|Vo =Vorm,<br>Tj = 125°C<br>Va=Vaan,<br>T, = 25°C<br>forAC 360°conduction angle|MAX<br>MAX<br>MAX<br>MAX<br>MAX|1.6<br>0.85<br>100<br>1<br>5<br>1.8<br>60||V<br>V<br>mQ<br>mA<br>UA<br>°C/W<br>°<br>C/|
|(1) Minimum|ler is guaranted at5% of ler max.||||||
|(2) For either|polarity of electrode MT2 voltage|with reference to electrode MT1.|||||
|PART|NUMBER INFORMATION||||||
||F<br>T<br>06<br>10<br>BH<br>OO<br>TU||||||
||FAGOR ___4t|a||PACKAGING|||
||||FORMING||||
||TRIAC|CASE|||||
||CURRENT|VOLTAGE|||||
|||SENSITIVITY|||||



## PART NUMBER INFORMATION 

Jun - 11 

Fig. 1: Maximum power dissipation versus 

RMS on-state current (full cycle) 

Fig. 2: RMS on-state current versus case temperature (full cycle) 

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P (W) IT(RMS)(A)<br>8 Tot eea |<br>> HET ———<br>LETT TTT a<br>« HI a<br>LEE a a<br>5 HEATHTT TT ATT ee<br>ETE A ee<br>4, CE a<br>LEE a<br>3 LUELETT 47 3,oe<br> TTT PART TT a<br>2 LETTA 2--+++++++++}a<br>COCA a<br>LAE a |<br>‘CeA | ——a a a ||<br>ETT<br>0 TT) emsya oe °<br>Oo 1 #%2 3 4 5 6 (RMS)(A) 90 Jee25 50 75 100 125 Te (°C)<br>**----- End of picture text -----**<br>


Fig. 3: : Relative variation of thermal impedance versus pulse duration 

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K=[Zth / Rth]<br>Anye 2) TaCC COIN CC VAT CT]<br>COPA CTI CE CCT ACI TTT<br>ee AH<br>aT AUT ANTRAL<br>EatCoo Fo kee a  An<br>CCN FINI FAC CT]<br>a a<br>TT TAT Tt<br>a2 [A]<br>veo WAL [MTT]<br>1E-3 16-2 1E1 1E+0 1E+1 1E+2 5E+2<br>**----- End of picture text -----**<br>


Fig. 5: Surge peak on-state current versus number of cycles 

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ITSM<br>80 (TOT r<br>CAa son\ HI<br>COTA TTT] Se cycle =<br>aSiiimii news H<br>a<br>60CT T<br>i= Tneea<br>2<br>40 COCCIFHArr<br>a<br>EHS t+ Ht<br>20 HHA<br>EHF HESS<br>ae1 TT TTT Number of cytes<br>10 100 1000<br>**----- End of picture text -----**<br>


Fig. 4: On-state characteristics (maximum values) 

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ITM (A)<br>CELEELCLL LL| peer<br>LT TTT TTT ert TTT TT<br>PEEL ATE<br>ee PAT<br>|COREL| teh j226e0 a<br>2 ee e<br>LT oT TP PT PT PP PP<br>LATE LT ETT ETT ET<br>CECT CTTT<br>Tj max VT (V<br>wl STL) vw<br>05 10 15 20 25 30 35 40 45 50<br>Fig. 6: Non repetitive surge peak on-state<br>current for a sinusoidal pulse with width:<br>tp < 10 ms, and corresponding value of It.<br>ITsm(A). t (As)<br>a r<br>T| initial= 25 °C<br>Seal<br>—a a<br>es<br>r w _]_ |tT<br>= moeee<br>S EC T<br>a S<br>SSF<br>vol [LL] TTT pts<br>{ 10<br>**----- End of picture text -----**<br>


Jun - 11 

men STANDARD TRIAC 

## FAGOR =) 

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Fig. 7: Relative variation of gate trigger Fig. 8: Relative variation of critical rate of Fig. 9: Relative variation of critical rate<br>current, holding current and latching versus decrease of main current versus junction of decrease of main current versus<br>junction temperature (typical values) temperature<br>Ia IH, |LITIVIGT, IH, IL-(Ti=25°C] (dl/dt)¢ [Tj/(di/de)¢ [Tj specified] (dV/dt)c (typical values).<br>26 6 ReeI *° Toon<br>oof A scerrrrece) | RTa<br>o ANCAA OORT 18TICo CT<br>NST A<br>ia) ETT 3 EEN ET vo RTC<br>1.0~ ELLE~ Sse 2 |ePi TT NETNE TT 10 POSTLTRSESTESOTCCT TT<br>°s PTTL TTT TTS ~~ og FLL TTT TTP<br>TCE eee eee<br>oT ee) PEE eo 0.6 SSH<br>-40 -20 0 20 40 60 80100120140 0 2 50 75 100 125 od 10 10.0 100.0<br>PACKAGE MECHANICAL DATA TO-220AB<br>oP ee<br>: At REF<br>Q QU TT H1 AAl 4.471.17 4.671.37<br>D ———$— A2 2.52 2.82<br>L1 b 0.71 0.91<br>D1 b2 1.17 1.37<br>c 0.31 0.53<br>D 14.65 15.35<br>b2 ' L ED1 10.018.50 10.368.90<br>| | e t 42 . 5198 52 . 1857<br>b I l | C H1 6.15 6.45<br>L 13.40 13.96<br>e A2 1 3.56 3.96<br>P 3.735 3.935<br>| | Q 2.59 2.89<br>**----- End of picture text -----**<br>


(*) Limiting values and life support applications, see Web page. 

Jun - 11