OPTDELECTRONICS NON-ZERO-CROSSING TRIACS MOC3020 MOC3021 MOC3022 MOC3023 2.54 TT TE | 5.1 MAX = 3.9 051 _ 434 MIN O86 041 DIMENSIONS IN mm PACKAGE CODE E T1603 MAIN ANODE}1 6 TERM, caTH [2 [s]Nc* MAIN B TERM. *D0 NOT CONNECT (TRIAC SUBSTRATE} 62081 Equivalent Circuit TOTAL PACKAGE Lead temperature (soldering, 10 sec) The MOC3020, MOC3021, MOC3022 and MOC3023 are optically isolated triac driver devices. These devices contain a GaAs infrared emitting diode and a light activated silicon bilateral switch, which functions like a triac. This is designed for interfacing between electronic controls and power triacs to control resistive and inductive loads for 240 VAC operations. B Excellent |; stabilityIR emitting diode has low degradation @ High isolation voltageminimum 7500 VAC peak @ Underwriters Laboratory (UL) recognizedFile #E90700 @ European applications for 240 VAC @ Triac driver @ Industrial controls & Traffic lights @ Vending machines @ Motor control @ Solid state relay Storage temperature .........-. 0... eee 55C ta 150C Operating temperature ................005 40C to 100C Forward DC current ......... 0... cece eee eee 50 mA Reverse voltage ........ 6. cee c eee eee eee ee 3V Peak forward current (1 ws pulse, 300 pps) ... 6. eee eee 3.0A Power dissipation (25C ambient) ................ 100 mw Derate linearly (above 25C ambient) .......... 1.33 mMW/PC OUTPUT DRIVER Off-state output terminal voltage ................. 400 Volts On-state RMS current Tyh=25C voce e eee 100 mA (Full cycle, 50 to 60 Hz) Tr=70C 2. ee 50 mA Peak nonrepetitive surge current .................0.. 112A (PW=10 ms, DC=10%) Total power dissipation (25C ambient) ........... 300 mW Derate above 25C 20.0.0... cece cece eee 4.0 mw OPTOELECTRONICS NON-ZERO-CROSSING TRIACS ied) TEST CONDITIONS INPUT DIODE Forward voltage Ve 1.2 1.50 Vv =10mA Junction capacitance Cy 50 pF V-=0V, f=1 MHz Reverse leakage current \n 100 pA Va=3.0 V OUTPUT DETECTOR Peak blocking current, either direction lor _ 10 100 nA Voru=400 V, Note 1 Peak on-state voltage, either direction Vim 2.5 3.0 Volts lw=100 mA Peak Note 1. Test voltage must be applied within dv/dt rating. IRANSFER CHARACTERISTIC: _ oe pe DC CHARACTERISTICS SYMBOL MIN. TYP. MAX. UNITS TEST CONDITIONS LED trigger current (current required MOC3020 ler _ 30 mA Main terminal to latch output) Moc3021 In 7 _ 15 mA voltage=3.0 V, R. = 1500 MOC3022 ler _ _ 10 mA MOC3023 ler _ 5 mA Holding current la _ 100 _ pA Either direction "TRANSFER CHARA CHARACTERISTICS SYMBOL dv/dt RATING Critical rate of rise of dv/dt _ 12 _ Vips Static dv/dt, T,=85C off-state voltage (see Fig. 3) Critical rate of rise of dv/dt _ 0.2 _ Vis Commutating dv/dt commutating voltage lose =15 MA (see Fig. 4) CHARACTERISTICS SYMBOL MIN. . . UNITS TEST CONDITIONS Isolation voltage Viso 5300 VacRMS lo<1 pA, 1 Minute Viso 7500 VacPEAK |.o<1 wA, 1 Minute Isolation resistance Reso 10" ohms Vio=500 VDC Isolation capacitance Coa 0.5 pF f=1 MHz Note 1: Ratings apply to either polarity of pin 6 referenced to pin 4. Voltages must be applied within dv/dt rating. OPTDELECTROWICS NON-ZERO-CROSSING TRIACS 14 1.3 12 11 o 1.0 0.9 8 0.8 < E te Zz uJ a oq 2 oO wi < Ee 2 Zz o | = = 0.7 -800 0.6 -3.0 -20 -10 0 10 20 3. -40 -20 0 20 40 60 80 100 Vim ON-STATE VOLTAGE (VOLTS) Ta AMBIENT TEMPERATURE (C) C1711 C1712 Fig. 1. On-State Characteristics Fig. 2. Trigger Current vs. Temperature IFT TRIGGER CURRENT NORMALIZED TS TTT MOC 3020 MOC 3021 o Vin (f) = Vers MOC 3022 MOC 3023 4 Ri au = wWVpack = 2Qrf x1.414 Vims = 8.88 f Vrms Fig. 3. Static dV/at Voc 1 6 | MOC 3020 MOC 3021 _-o Vin (f) = Vrms MOC 3022 MOC 3023 | 4 Ri x = 8.88 f Vims C1689A Fig. 4. Commutating dV/dt