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MOC3040 MOC3041 ZERO VOLTAGE CROSSING OPTICALLY ISOLATED TRIAC DRIVER This device consists of a gallium arsenide infrared emitting diode optically coupled to a monolithic silicon detector performing the function of a Zero Voltage Crossing bilateral triac driver. They are designed for use with a triac in the interface of logic systems to equipment powered from 220 Vac lines, such as solid-state relays, industrial controls, motors, solenoids and consumer appliances, etc. Simplifies Logic Control of 22o Vac power Zero Voltage Crossing High Breakdown Voltage: High Isolation Voltage: VDRM = 400 V Min ~+ ,,,,\:\, .* w, !:*\. ,,\.;y-.‘“& ~.>:et, i.’ .,5 ::$., ,..\\’.’ . ~..l. \,,\, ,. .,.\\. ~.\ye$ ,,.’W;,. ,., {):, y; V,SO = i’500 V Min Small, Economical, 6-Pin DIP Package Same Pin Configuration as MOC3020/3021 UL Recognized, File No. E54915 dvldt of 100 ~//JS Typ NOTES 1. OIMENSIONSA AND 8 ARE OATUMS. 2. T IS SEATING PLANE, 3. POSITIONAL 70 LERANCES k$10 0.13(0.oowdl FOR L6A0S I A@@ 4. CNMENS!ON L TO CENTER OF LEADS WHEN FOfIMEtI PARALLEL. 5. m4ENsmNIfwi ANO TO LERANCINO PER ANSI Y14.5, 1973. ,.,’. ‘ski,:,,,,.~ .,~,.!. c L r7 ._ J Q I Negligible Power in Qutp&}?,~iver Derate above 25°~ <t 1.33 ~~k4#UM OUTPUT DRIVER Off-State Out~q~%*inal RATINGS Voltage (FulAYSy&~. 50 to 60 Hz) itive Su rge ~ TA = 25°C TA = 70°C On-.State ~$~~bnt Peal@~r@t ANOCIE CATHOOE 3. NC 4. MAIN TERMINAL 5. SUBSTRATE 6. MAIN TERMINAL 2 m WI°C 400 VDRM IT(RMS) Current lTSM volts 100 mA !xl mA 1.2 A .jfP@X<fO ms) ~\~R~$%ower ~~%arate fOTAL CASE 730A.01 Dissipation@ TA = 25°C pD abova 25°C DEVICE MAXIMUM Isolation Surge Voltage (Peak ac Voltaga, 300 mW 4.0 mW/°C 7500 Vac COUPLER RATINGS (1) Vlso 60 Hz, 5 Second Duration) pD Derate above 25°C Junction Ambient Temperature Operating Range Temperature Storage Temperature Range Soldering Temperature (1) Isolation specifications Range are subject to change TA -40 is an internal devica dielectric notice. Klwloc -40 to+ 100 Tstg without mW 4.4 TJ I1Os} surge voltage, VISO, 330 Oc Oc to +70 -40 to+ 150 Oc 260 Oc breakdown * !& 1 Anode Total Power Dissipation @ TA = 25°C 6 Main Terminal 2 Cathode 4 3 rating. SCHEMATIC NC &trat. DO NOT Connact zero Crossing Circuit @ MOTOROLA INC .19131 ~ Mein Terminal DS2559 FIGURE 6 3- HOT-LINE SWITCHING Hot 51 CIRCUIT ‘& Typical circuit for use when hot line switching @’i&yired. In this circuit the “hot” side of the line i~m~~ed ,.~t,~ the load connected to the cold or neutrq&##The may be connected to either the neutra~{~~,~b line. MOC 3040/ 3041 APPLICATION L 220 Vac 4 and load Rin is calculated so that IF is eq@~4Ja~@e rated I FT of the part, 15 mA for the M0,:&~~6<*r 30 mA for the MOC3040. The 39 ohm resi~r ‘@d 0.01 IJF capacitor 330 are for snubbing of the~{{~~c a~d may or may not be necessary depending qtij~t$:b w Ud$cl Suggested method with a Motorola particular triac and load of firing two, back-to-back SCR’S, triac driver. Diodes can be 1N4001; resistors, R 1 and R2, are optional 330 ohms. Motorola reserves the right 10 make changes to any products herein to Improve rellabihty, funcoon or design Motorola does not assume any I!abihtyar!sing out of the appl!cat!on or use of any product or ctrcuit described herein; nenher does I! convey any hcenae under Its patent rights nor the rights of others MO~OROLA @ Semiconductor Products Inc. ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted) I Symbol Characteristic I Min I Typ I Max Unit I LED CHARACTERISTICS t — IR Reverse Leakage Current I 0.05 100 1.3 1.5 MA (vR = 6.0 V) vF Forward Voltage v ‘c&s “h. .f:~pu ., ,!* >. ..,..,,, (i F= SO MA) DETECTOR CHARACTERISTICS Peak Blocklng Current, (Rated VDRM, Either Direction 1ou$&JY ,,$+.: *.. .+,\ >,$hA IDRM1 – 2.0 VTM - 1.8 dvldt - : :&<* ,, ;? W? i$;.,.,:?:.’% :,~>,, Note 1) Peak On-State Voltage, IITM \.!\:.@‘,,...>;.. .:,’ .,.:jt\ ., (IF = O unless otherwise noted) Either Direction = 100 mA Peak) Critical Rate of Rise of OffState Voltage volts f;+’? ,}i “:at, ,.J(~. ,~ia ,-+. ,\...Y - Vips ., ., ~? & ~Y$ : :., *.l,.,$., ,* .. ,.,,. l.\\.. # -?,’:,. .\Y,. .$$’ ~.,:,.>,.,,. v IF! .!?,, MT1-MT2 Voltage above which device will not ,.>$\:~:, ,R. . ‘iF = ‘ated lFT’ .$ -.~~. trigger.) !!. ‘%, 1“ ,~}.,.,,,.iw. .\y ,.. Leakage in Inhibited State IDRM2 .i>$ ~,.,,:ji~; , ‘%+}. $., ‘t F = ‘ated 1FT’ ‘ated ‘DRM’ off ‘tate) .,,,. . ,,,. ZERO CROSSING CHARACTERISTICS Inhibit Voltage FIGURE . 2 – TRIGGER 15 40 100 300 CURRENT volts PA versusTEMPERATURE 1.5 1.4 ~ 1.3 i y < 1,2 : 1.0 = 1,1 0.9 0.8 0.7 -40 -3.0 -2.0 -1.0 ‘TM ON STATE 0 VOLTAGE 1.0 2.0 3.0 (VOLTS) (R)MOTOROLA 4.0 .40 .20 0 20 TA AMelENT 40 TEMPEfiATURE Semiconductor Products Inc. 60 (°Cl 80