MOC3009-12 Datasheet by onsemi

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FAIRCHIl—D SEMICONDUCTDP‘ NON-ZERO-OROSSING TRIACS PACKAGE DIMENSIONS M DIIEHSIIIIS Ill I'll PACKAGE mm: s “mm MAIN ”WEE 5 mm. MINE fl llc‘ mull E ‘ TERM. *nu Ilur comm (TRIAD sussrms) Equrvalent Clrcul‘t an“ M0630” M003010 M0630" M003012 DESCRIPTION The MOCSOOQ‘ MOCSDID, M00301! and MOCGDIZare optically Isolated mac dlivet devices These devices contain a GaAs Inflated emitting diode and a light activated silicon bllateral switch, which iunctions like a trlacv This selies is dBSIgnsd l0! interiacing between eiecllomc controis and power triacs to controi reelstive and Inductive loads for 120 VAC Opevalicns. FEATURE-S - Low rnpur current required (typlcally 5mA—MDCSDII) I ngh isolation vonagkminirnum 7500 VAC peak I Underwriters Lahoratory (UL) IecognlzediFile 590700 APPLIOATIONS . Triac driver - Industrial controis . Trallic llghts . Vendlng machlnes l Motor control a Solid state relay A OLU‘I'E MAXIMUM RATINGS TOTAL PACKAGE Storage temperature — 55°C to 150°C Operating temperature — 40°C to two Lead temperature (soldering l0 sec) . . .............. 260°C Withstand test voltage . . 7500 VAC Peak (50760 Hz) INPUY DIODE Forward DC current . 50 mA Reverse voltage . . . a v Peek forward current (1 us pulse, 300 pus] . . ...... 3,0 A Power dlssipetlon (25°C amblent) . . . loo mW Derate linearly (above 25°C) 1 33 mW/°c OUTPUT DRIVER alt-state output Ielmmal voltage 250 voits On-slate RMS current 1.:25 . loo mA (Full cycle sotu so Hz) T.:70°c . , 50 mA Peak npnrepetltlve surge current . l 2 A (PW:10 ms, DC=1U%) Total power disslpellon @ “:25“: , 300 MW Derate above 25°C 4.0 mW/°C 2-55
FAIRCHILD SEMICONDUCTDP‘ NON-ZERO-GIIOSSIIIG TRIAOS ELEGI'IIOOPTICAL CHAMG‘I'IBIS‘I'IGS (25”01emwaluve Unless Otherwiu Specified) INDIVIDUAL COMPONENT CHARACTERISTICS cmnncrsmsnc smloL mu. wr. uux. urms van commons INPUT DIODE Forward vomage v; 12 I so v ‘7 m mA Junmron capacrrance cJ so pF V;=0V.I=IMH1 Reverse \eaksge cmrent \. mo ”A V73 0 v OUTPUT DETECTOR Peak mockmg currsm, srmsrmrecucrr I," 7 mo rrA VW:250V,Ncne1 Peak on-sme vchage, enhsr dvecuon V“ 7 2.0 s c vows mace mA Peak Nola1.Teslvo\lage musI be applied wrmm dv/dt vating TRANSFER CHARACTERISTIGS no CHARACYERISI'ICB svuloL mu. m». mx. urms Tin commons LED mggev current [curvem vequwed Moczoos In 30 mA Mam (ermmal lo \atch output) Mocamo I“ 7 ‘5 rrrA vchage=3fl v, R 7 ‘5on M00301 1 I" 5 w mA M00301 2 In 7 7 5 mA He‘dlng currenr I" 7 too 7 M Earner drrecuorr TRANSFER (ammonium-"ct annAcrEnlsncs svulml. mm. "P. mu. ums rm commons AC dV/dl RATING Cvmcal me u! use a! dv/cfl 7 my 7 vms scans dv/dl oII-sme vonage (see Frg, A) cmrm me of rise of dv/cfl 7 o 2 7 ms cammmaung dv/dt commulanng voltage was mA (see Fry. 4) ISOLATION cHAflAmISTIGS cmnmmmcs smaoL Mm. wr. mu. urms 1E5! counlmns \solamn voltage v_, 5300 vaMs La <1 mr="" 1="" manure="" v”="" 7500="" vwfeak="" m,“="" m,="" i="" mlnme="" isolatmn="" resrsrance="" aw="" 10="" ‘="" ohms="" h7500="" vdc="" ismarmn="" capam'ance="" a.="" 0.5="" pf="" i="‘" mhz="">
FAIRCHIl—D SEMICONDUCTDP‘ NON-ZERO-CROSSING TRIAOS TYPICAL ulflfllc‘l— GHARACTIRISTIG Guam (we Fm AirTempomlure Unlm Otherwise Specified) ‘ +£4.10 , Ionw:n;:::fzmtnvl. vs: g Outnux Pulse W-am so us a u u "mm-me ; IF onmA - z D 2 +400 : v 5 ‘ ‘7 K 5 u 755 c 3 A 11 o E u .25 c a n a . u f3 g n w v: 3 v E duo 1335 L S f v, : -300 r 2 5 r s m 20 some 44 40 «30720 2.0 an m u y, , FORWARD CURRENV , ",A VIM 7 ON-STATE VOLYAGE VVOLTS! ”‘9 C|687 Frg , Forward Vonage Drag Fig, 2, DIV-Stale snaraerensnes VS. Forward Current I 3 _: u u n \u u i as 5 a: O z D 7 0 5 -00 ’20 0 20 40 GD 50 100 n 7 Amman rewaanwa: we C‘GBB Fry. 3 rrrgger Current vs Temperature COMMUTATING — dv/dl TEST CIRCUIT STATIC 7 mm TEST CIRClJW Vcc arr. . — s z ‘ 5 P 2 535%“: Mocwos I v," v = Vmu : § 2 Memo V." ,n 1 V,“ menu A H o 7 Mocauu « mx _ Momma °_ Mocwu 4 m. m 1!: = A "M m wvmx m x141 v :1: as: . Vm = 5,85. Vmu ‘ Ems: Frg 4 dV/dt TEST CWDIIVIS
FAIRCHILD SEMICONDUCTDP‘ NON-ZERO-CROSSING TRIAGS I TYPICAL ELECTRICAL OHARAC’IERIS‘I'IG GURVIS (25°C Fm AirTempmmIa omega Chemise SpscnIed) (Com‘d) 12.0 0.24 ‘0 0 20 a fi 3 1 > ”100 0,203 a 3 0.16 v s 6 3 g E g E E E) 8.0 0.16 E ,: 5 0.12,5 :5 . 3 IS 2 m CommuIaIIn 5 m g \ 5 I so , 0.12 2 I 4 L E5 0.05 o o _ ”on 0 § 0 E | ‘5 4 05 ‘ ’3 2 o 04 5 ° . 0' g sxauc dv/dt ’ E ¥257§3¢Y111RM5F9 {e 4 g ‘ Commulanng dv/dl 1’ In I u I 2 0 0 04 O T251 Clrcull In FIguVe 4 0 0 0.4 O B 1.2 1.6 2.0 25 5° 75 100 m — LOAD RESISTANCE (an T. — AMBIENT TEMPERATURE (“CI 01690 (21591 FIg 5. dV/dl v5 Loadfisslslance Fig 6 dV/m V: TMDWE'U’E <73 .="" a="" 2°="" iiiiii="" iiiii="" ‘°°°="" 3="" ~="" i;="20" ma="" ;;,="" mm="02" v/ps="" v="" e="" yes!="" circuit="" in="" figure="" 4="" e="" 1="" 5="" i="" n="" 3="" (wm!="5.9" vmv="" lu="" -="" \="" u,="" m="1" kn="" e="" ‘5="" 100="" ‘="" ‘="" :=""> “ E 3 1 0 \\ 2 o ' I D 3 g (I: & Io E ’5 T a. 5 I > 2 To :2 ° 10 100 1000 10.000 100,000 ‘ 0-01 01 1.0 10 100 I — MAXIMUM OPERATING FREQUENCY (Hz) PW — PULSE WIDTH (ms) C1692 01696 Fig 7, Cammulatmg dV/dl VS. Frequency Fry. 8. MaxImum NanrepeiIII‘I/e Surge CIA/fen!
FAIRCHILD SEMICONDUCTDP‘ NON-ZERO-CROSSING TRIAGS TYPICAL APPLIGATION CIRCUITS Rm w vac ”NV”— Mocam 2 M00301 n MOCGDH Mocam 2 Fig 9, Res/5W2 Load Macaw; Mocaom _ DW mm 1 _ 1.5 M 57050 I ‘5 STWBS ng m. Inductive Load Wllh Sensmve Gate mac a.” 1 Va; mm»— 1D“; ,— mocaoag Mocamo Mocaon Meow 2 Fry 11 H5 mA< lav=""><50 um="" inducrtvs="" load="" wm.="" naansnsmve="" gare="" tnac="" swiss="">
FAIRCHILD — SEMICONDUCTDFF
www.fairchildsemi.com © 2000 Fairchild Semiconductor Corporation
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES
OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR
CORPORATION. As used herein:
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the body,
or (b) support or sustain life, and (c) whose failure to
perform when properly used in accordance with
instructions for use provided in the labeling, can be
reasonably expected to result in a significant injury of the
user.
2. A critical component in any component of a life support
device or system whose failure to perform can be
reasonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO
ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME
ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN;
NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.
NON-ZERO-CROSSING TRIACS

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