Order this document by 2N~42MD I I 2N6342A thru 2N6349A "- `T2~MT' BIDIRECTIONAL . . . designed primarily light dimmers, or wherever needed. motor TRIODE for full-wave controls, full-wave silicon Triac type thyristors state for either polarity THYRISTORS ac control applications, heating controls gate controlled such as and power supplies; solid-state devices are switch from a blocking to a conducting of applied anode voltage with positive or negative gate triggering. . Blocking Voltage to 800 Volts ~..:! \ ,* ~+$ .,:$ . ~. ~,,+~i~$,,~ ,%, ,.~i .x Uniformity and Stability `~~i ;.:.l * Small, Rugged, Thermowatt Construction for Low Thermal l+? ~~ !$.$\,, l:.rj Resistance, High Heat Dissipation and Durability ~?it\~N, .,. . Gate Triggering Guaranteed in Two Modes (2 N6342A, 2N~34~, . Ail Diffused and G la~ Passivated 2N6344A, 2N6345A) 2N6348A, 2N6349A) Junctions for Greater or Four Modes (2 N6346A, .8 Ampere Devices Available as 2N6342 Parameter ~~$~~~? "`i.~> ..: thru 2~34@* Unit volts 41-J 200 400 600 800 NOTE: 1. DIM. L& H APPLIES TO ALL LEADS, STYLE 4: PIN 1. MT1 Amp 2. MT2 12 3. GATE 6.0 ~~uit WJ = I 2t Fusing -40to+110C, Average Pulse Mdth Gate Power (Tc = +80C, = 2.OUS I t = 8,3 ms) "Peak Galte Lurrent - I `Storage Temperature Range TJ Range Tstg 59 A2~ I 20 0.5 I 2.0 *IO -40to+llo -40 to +150 CHARACTERISTIC Characteristic `Thermal l~nfl VGM Junction Temperature -HERMAL PG -.. M PG(AV) `Peak Gate Voltage `Operating Amps t = 8.3 ms) *Peak Gate Power (Tc: = +80C, I Resistance, Junction to Case ~lndicatesJEDEC Registered Data. 4. MT2 120 Symbol Max Rej~ 2.0 a d' Watt Amp volts c Oc Unit Ocm 1 CASE 221A-02 TO-220Aa I I Therm owatt is a Trademark of Motorola Inc. MOTOROLA INC., 1980 DS 6547 F ELECTRICAL CHARACTER ISTICS (Tc = 250 and either polarity of MT2 to MTI Characteristic *Peak Off-State IDRM VD = Rated VDRM,TJ = 110C, 1.3 VTM Voltage Gate Trigger Current, Continuous VD=12Vdc, RL=1000hms IGT dc Gate Pulse Width = 2.0 ES 2N6346A MT2 (-), G(-I All Tvpes MT2 (-), G(t) 2N6346A -- 6.0 thru 2N6349A 25 *MT2 (+), G(t); MT2 (-), G(-) TC = -400C All Types (+), G(-); MT2 Tc = -40C 2N6346A -- Minimum VGT Gate Pulse Width = 2.0 ps (+), G(+) All Types MT2 (+), G(-) MT2 (-1, G(-) 2N6346A All Types MT2 (-), G(+) 2N6346A *MT2 (+], G(-); MT2 VD = Rated VDRM, *MT2 {t), *MT2 (+), G(-); thru 2N6349A G(+); MT2 All Tvpes Tc = -40C (-), G(+) Tc = -40C 2N6346A thru 2N6349A RL = 10k ohms, TJ =lOOC (-), G(-) All Types MT2 (-), G(+) 2N6346A thru 2N6349A VD= 12 Vdc, Gate Open IT= 2.5 1.1 2.0 1.4 2.5 -- 2.5 -- 3.0 -- -- -- -- -- 6.0 40 tgt -- 1.5 2.0 ps ITM = 17A IGT = 120 mA, RiseTime =0.1 ps, Pulse Width = 2.0 #s Rate of Rise of Commutation VD = Rated VDRM, di/dt = 6.5 Alms, Voltage dvldt (c) - 5.0 -- Vlps 75 *TG@ -4@C ,.!$.". .,+ * .::$"~ +!{,*. .Y `$!! +'J#$\. ,:,t\.::,,, ,. ,q..s~.'.:i!,:t> . .*Y,,.<.. .\\ ~.,.i,.i..... ..\>.~.,,. } Time VD = Rated VDRM, rnA Tc = 25C<&:@ 200 mA Critical 0.9 volts `+$l,;* :~~, I H Holding Current *Turn-On -- .,, _}!* `:5,, *l'\.*,.,$..$;~, \,y,fs,= . z3.$.S3 $<, ~~:: `>` :$.,,, ,.* :*> ,8) ,,,:. .>C:*&. ..',,.:l?., ~,,J.. `~$,:k~ -- ..1,. ,~> f <.:, ~~>:im, ,,,$.$!..,,.,, 0.2 :/,:' .$'\. .,.:1 `\l$ \ \, 0.2 .! * , ,,>*.*? thru 2N6349A MT2 (+), G(+); MT2 (-), G(-) volts ?{;;. `~)!~~a ,,'? 125 -- `l'i.<.-t+:t:; !:, ~h.",1. Ii!,p, ,,>: * ,..> w,. ,,`$$i$j::',~$~. `~'$,k~ \ <.kT' ~i~: ,.\,,.%,,3 !},.. 2.0 ``:;Y:6.9 100ohms MT2 1.75 --. -- thru 2N6349A *Peak Gate Trigger Voltage 12 Vdc, RL= mA .qa,d ,t:n,zp=,f' 10 *MT2 VD= 6.0 thru 2N6~9A [-), G(t) Unit 2.0 *,\ *'S,, ~&;s>~$ \,j$>$* `.r.:.l $,, ,,",.,`":; AL ~.~1: ,!*, * ,,,`,$.,,,6,, 50 ,~~y<'~$?;"'% ~~> Q:: :i& % MT2 (+), G(+) All Tvpes MT2 (+), G(-) Max Gate Open ITM = 17 A Peak; Pulse Width = 1.0 to 2.0 ms, Dutv Cycle S2.0 Minimum noted.) Typ Min Symbol Current *Peak On-State voltage, unless otherwise ,X,,,~$~~,&~' ITM = 17A, Commu~~~~ Gate Unenergized "$'ij$,,~$ " ..:.;,,. .. . $,<,,,. ,,?: . . ,s . >:>,."''$.5,.. ,.st'~ TC = 80C 20 I m ! , I ! 1 1 i I dc. I I I I [ 16 [ ~ap J. : * 80 -- h -"v" ~=CONDuCTION ANGLE 2.0 4.0 `% I 1 , i 6.0 8.0 10 \ 1 ~ 12 \ 14 0 2.0 IT(RMS), RMS ON.STATE CURRENT, (AMP) MOTOROLA @ 1 \ dc' 70 o ` 4.0 6.0 8,0 10 IT(RMS), RMS ON-SfATE CUR RENT (AMP) Semiconductor a Products Inc. 12 14 FIGURE 3- TYPICAL GATE TRIGGER 1.8 I I 60 80 OFFSTATE w a $ d 1.2 9 c w w 1.0 ~ + u FIGURE 4 -TYPICAL VOLTAGE I I 100 120 VOLTAGE= GATE TRIGGER CURRENT 12V-- 0.8 $ 0.6 ->= 0.4 -60 20 0 -40 '20 40 TJ, JUNCTION TEMPERATURE FIGURE 5 - ON3TATE lnnl --- , I 140 (C) CHARACTERISTIC I I I m<,% ~:.,~.s.:,., , .\? }~, Ax 70 ,.<.!:, ` ,,.> ~: I 1/1/ I >{.: *:* ~*,\t\ , .:~.:it}:f +4 GATE OP;N \ MAIN TERMINAL POSITIVE 50 = ," -- \ =1 \ \ \ \ Zo /" / ..MAIN TERMINAL POSITIVE TJ = 100C G = ~ + ~ E a 3 v u : v z 10 I 3 \ ?2. \ II ,# I 7.0 . rl 5.0 60 TJ, JUNCTION TEMPERATURE ,s,. ~~ N 80 (DC) 100 120 140 3.0 0 m \. FIGURE 7 - MAXIMUM 2.0 - 0 w z NON-REPETITIVE SURGE CURRENT 100 a + z a ~ I I I I -1 I I I 1"1 0.3 0.2 0.1 0.4 ! 0.8 ~M, 1.2 MAXIMUM 1.6 2.0 2.4 INSTANTANEOUS 2.8 3.2 3.6 ON-STATE VOLTAGE 4.0 4.4 10 2.0 3.0 5.0 NUMBER OF CYCLES (VOLTS) -- (M) MOTOROLA Semiconductor Products Inc. 7.0 10 FIGURE 8 - TYPICAL *t.., ~s. THERMAL RESPONSE ` ;l.. Motorola reserves~~~:rnakechanges without fudhernoficetoany products herein. Motorola makes no warranty, representation orguerantee regarding the suitability ot~,m@s for any particular pur~e, nor does Motorola assume any tiabitity arising out of the appficetion or use of any product or circuit, and specifi~k~dl~~s any and all Iiebihty,including tithoutflmitafion consequential orincidentel damages. `TypiW parameters can and do vary in different application. All,~&ating parameters, including `Typicals" must be validated for each customer appticetion by customer's technical experts. Motorola does not m~%~.~.~nse under its patent rights nor the rights of others. Motorola products are not designed, intended, or authorized for use as components in syste~,-ed for surgi~l implant into the body, or other appticetions intended to support or sustain tife, or for any other appflcation in which the failure of th~~ot~!a product could create a situation where personal injury or death may occur. Should Buyer purchase or use Motorola products for any such un~,wdor unauthorized application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiades, affiliates, and distributors harmless aga~ all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or in~rectly, any claim of personal inju~ or death associated wit uch unintended or unauthorized use, even if such claim alleges that Motorola was negligent regarding the design or manufatiure of the part. Motorola and 8A are registerti trademarks of Motorola, Inc. Motorola, Inc. is an Equal Opportunity/Affirmative Action Employer. Literature Distrfbutlon Centew USA Motorola Literature Distributio~ P.O. Box 20912; Phoenix, Arizona 85036, EUROPE Motorola Ltd.; European Literature Centrw 88 Tanners Drive, Blskelands, Milton Keynes,MK145BP, England. JAPAN: Nippon Motorola Ltd.; 432-1, Nishi-Gotanda, Shinagawa-ku, Tokyo 141, Japan. ASIA PACIFIC Motorola Semiconductors H.K. Ltd.; Sificon Herbour Center, No. 2 Dai King Street, Tai Po Industrial Estate, Tai Po. N.T., Hong Kong. O M MOTOROLA 744G1 PRINTEO IN USA {1994) MPSFOD 2N634WD 11111111111111111111111111111 1111111