Zero Crossing Optoisolators Triac Driver COoOsSmMmo Output (800V Volts Peak) KMOC3083 UL 1577 (File No.E169586) VDE 0884 / 0860 / 0805 (File No.101347) For 115/240 Vac (rms) Application: Outside Dimension : Unit (mm 1. Solenoid/Valve Controls mor 2. Lighting Controls 0 cosmo 3. Static Power Switches O 3083 Date Cod XXX ate ie 4. Ac Motor Drives i Oo LO 5. Temperature Controls AnederT TITS 6. E.M. Contactors 4-860 730 7. Ac Motor Starters 8. Solid State Relays ' = 0.26 9. Available package : DIP/ SMD/H. | . 12 O68 43.00 14.00 5.08 Schematic : Top View 1. Anode 1 Cy 2. Cathode 3.NCG 2 L 4, MAIN TERMINAL 6. MAIN TERMINAL 3 4 Absolute Maximum Ratings cren25) Parameter Symbol Rating Unit Input Forward current IF 50 mA Peak forward current FM 1 A Reverse voltage VR 6 Vv Power dissipation Pb 70 mw Output Off-State Output Terminal voltage VDRM 800 Vpeak Peak Repetitive Surget Current ITSM 1 A Power dissipation Pp 300 mw Total power dissipation Ptot 330 mw Isolation voltage 1 minute Viso 5000 Vrms Operating temperature Topr -40 to +80 C Storage temperature Tstg -40 to +125 C Soldering temperature 10 seconds Tsol 260 c Electro-optical Characteristics (Ta=25C) Parameter Symbol Conditions MIN. TYP. MAX. Unit Input Forward voltage VF IF=10mA _ 1.2 1.4 Vv Reverse Leakage Current IR VR=4V _ _ 10 UA Output Peak Blocking Current IDRM VDRM =Rated _ 60 500 nA ON-State Voltage VTM ITM =100mA _ 18 3 Vv Critical rate of rise of OFF-state aVidt Vor= (1/ /2) *Rated 600 _ _ vius voltage Transfer Holding Current IH _ 100 _ uA charac- Inhibit Voltage (MT1-MT2 Voltage VINH IF =5mA _ 8 20 Vv teristics above which device not trigger.) Leakage in Inhibited State IDRM2 IF =Rated IFT, Rated VoRM, Off State _ _ 500 uA \solation resistance Riso DC500V 5x10" | 10" = ohm Minimum trigger current IFT Main Terminal Voltage=3V _ _ 5 mA A097 2005-2006 COSMO ELECTRONICS CORPORATION http:/Avww.cosmo-ic.comcosmo KMOC3083 Fig.1 Forward Current vs. Ambient Temperature Forward Current IF (mA) -30 0 25 55 75 100 125 Ambient Temperature Ta (C) Fig.2 Diode Power Dissipation vs. Ambient Temperatura 100 80 70 60 40 20 Diode Power Dissipation Pp (mW) 0 30 020 25 50 75 100 Ambient Temperature Ta (C) Fig.3 On-State R.M.S. Current vs. Ambient Temperature 120 100 80 60 40 20 On-State R.M.S Current (mA) 0 -30 0 25 55 75 100 125 Ambient Temperature Ta ("C) Fig.4 Total Power Dissipation vs. Ambient Temperature 600 500 400 330 300 200 100 Total Power Dissipation Pp (mW) -30 0 25 50 75 100 Ambient Temperature Ta ("C) Fig.5 Peak Forward Current vs, Duty Ratio Pulse width <= 100us Ta=25'C 10000 1000 100 Peak Forward Current IFm (mA) 10 107 10" 1 Duty Ratio Fig.6 Forward Current vs. Forward Voltage 500 200 400 eee 50 Forward Current IF (mA) nN oS o O58 10 15 20 25 30 Forward Voltage VF (V) Fig.7 On-State Characteristics +400 +300 Ta=25C +200 +100 -100 -200 On-State Current Itm (mA) o -300 -400 39-2 1 #0 +1 +2 43 On-State Voltage VT (V) Fig.8 Inhibit Voltage vs. Ambient Temperature 1.4 13 1.2 414 1.0 0g 0.8 07 06 Normalized To Ta=25C Vin, NORMALIZED -40 20 0 20 40 60 80 Ambient Temperature Ta (C) Fig.9 Leakage with LED off vs. Ambient Temperature 500 lF=0,VprRM=Rated Peak Blocking Current IpRM (nA) = 3 NR s 8 8 8 8 a -40 -20 0 20 40 60 80100 Ambient Temperature Ta ("C) Fig.10 lorvz,Leakage In Inhibit State vs. Ambient Temperature 15 14 13 12 14 1.0 09 OB a7 06 IF=Rated IFT lpRM2,Normmalized -40 -20 0 20 40 60 BO Ambient Temperature Ta (C) Fig.11 Tigger Current vs. Ambient Temperature Normalized To Ta=25C Orrrrstrs SO=NWRUD IFT,Normalized eoooog:s ObhAaAAN wo & oS -20 G6 20 40 60 80 100 Ambient Temperature Ta (C) 2005-2006 COSINO ELECTRONICS CORPORATION A098 http:/Avww.cosmo-ic.com