MOC3080, MOC3081, MOC3082, MOC3083 OPTICALLY COUPLED BILATERAL SWITCH LIGHT ACTIVATED ZERO VOLTAGE CROSSING TRIAC Dimensions in mm 2.54 DESCRIPTION The MOC308_ Series are optically coupled isolators consisting of a Gallium Arsenide infrared emitting diode coupled with a monolithic silicon detector performing the functions of a zero crossing bilateral triac mounted in a standard 6 pin dual-in-line package. l l l l l 1 2 6 5 3 4 1.2 7.62 6.62 7.62 4.0 3.0 13 Max 0.5 FEATURES l 7.0 6.0 3.0 Options :10mm lead spread - add G after part no. Surface mount - add SM after part no. Tape&reel - add SMT&R after part no. High Isolation Voltage, 5.3kVRMS Zero Voltage Crossing 800V Peak Blocking Voltage All electrical parameters 100% tested Custom electrical selections available APPLICATIONS l CRTs l Power Triac Driver l Motors l Consumer appliances l Printers 0.5 3.35 0.26 ABSOLUTE MAXIMUM RATINGS (25 C unless otherwise noted) Storage Temperature -550C - +1500C Operating Temperature -400C - +1000C Lead Soldering Temperature 2600C (1.6mm from case for 10 seconds) INPUT DIODE Forward Current 50mA Reverse Voltage 6V Power Dissipation 120mW (derate linearly 1.41mW/0C above 250C) OUTPUT PHOTO TRIAC OPTION SM OPTION G SURFACE MOUNT 0.6 0.1 10.46 9.86 1.25 0.75 7.62 POWER DISSIPATION 0.26 10.16 ISOCOM COMPONENTS LTD Unit 25B, Park View Road West, Park View Industrial Estate, Brenda Road Hartlepool, TS25 1YD England Tel: (01429)863609 Fax : (01429) 863581 e-mail sales@isocom.co.uk http://www.isocom.com 15/1/03 Off-State Output Terminal Voltage 800V Forward Current (Peak) 1A Power Dissipation 150mW (derate linearly 1.76mW/0C above 250C) Total Power Dissipation 250mW (derate linearly 2.94mW/0C above 250C) ISOCOM INC 1024 S. Greenville Ave, Suite 240, Allen, TX 75002 USA Tel: (214) 495-0755 Fax: (214) 495-0901 e-mail info@isocom.com http://www.isocom.com DB92698m-AAS/A3 ELECTRICAL CHARACTERISTICS ( TA = 25C Unless otherwise noted ) PARAMETER Input Forward Voltage (VF) Reverse Current (IR) Output Peak Off-state Current ( I DRM ) Peak Blocking Voltage ( V DRM ) On-state Voltage ( VTM ) Critical rate of rise of off-state Voltage ( dv/dt ) Coupled 1.2 TEST CONDITION 1.4 10 V A IF = 20mA VR = 6V 500 nA V V VDRM = 800V (note 1 ) IDRM = 500nA ITM = 100mA ( peak ) 800 3.0 V/s 600 Input Current to Trigger ( IFT )(note 2 ) MOC3080 MOC3081 MOC3082 MOC3083 Holding Current , either direction ( I H ) Input to Output Isolation Voltage VISO Zero Crossing Charact-eristic MIN TYP MAX UNITS 30 15 10 5 mA mA mA mA A VRMS 400 5300 Inhibit Voltage ( VIH ) 20 V Leakage in Inhibited State ( IS ) 500 A VTM = 3V ( note 2 ) See note 3 IF= Rated IFT MT1-MT2 Voltage above which device will not trigger IF= Rated IFT VDRM = 600V off-state Note 1. Guaranteed to trigger at an I F value less than or equal to max. I FT , recommended I F lies between Rated IFT and absolute max. IF . Note 2. Measured with input leads shorted together and output leads shorted together. 15/1/03 DB92698m-AAS/A3 CHARACTERISTIC CURVES Fig.1 Forward Current vs. Ambient Temperature Fig.2 On-state Current vs. Ambient Temperature 50 ITM , on-state current (A) Forward current I F (mA) 60 40 30 20 10 0 -40 -20 0 0.10 0.05 0 -40 -20 20 40 60 80 100 120 o 20 40 60 80 100 120 Ambient temperature Ta ( C) Fig.4 Forward Current vs. Forward Voltage Fig.3 Minimum Trigger Current vs. Ambient Temperature 10 100 VP= 6V RL= 100 8 Forward current I F (mA) Minimum trigger current I FT (mA) 0 o Ambient temperature Ta ( C) 6 4 2 0 o o 60 C 40 C 20 C 80 C 100 C o o o 10 1 20 40 60 0.4 100 80 o 0.8 1.2 Fig.5 On-state Voltage vs. Ambient Temperature Fig.6 Holding Current vs. Ambient Temperature 1 3.0 VP= 6V 2.6 Forward current I H (mA) On-state voltage VTM(V) I TM= 100mA 2.2 1.8 1.4 1.0 0.1 0.01 20 40 60 100 80 o Ambient temperature Ta ( C) 15/01/03 2.0 1.6 Forward voltage VF (V) Ambient temperature ( C) 20 40 60 80 100 o Ambient Temperature Ta ( C) DB92698m-AAS/A3 CHARACTERISTIC CURVES Fig.7 Turn-on Time vs. Forward Current Fig.8 Repetitive Peak Off-state Current vs. Temperature 1000 VP= 9V RL= 100 8 Repetitive Peak Off-state Current Idrm (nA) Turn-on time Ton ( s) 10 6 4 2 100 10 0 1 10 20 30 40 50 20 80 100 Static dv/dt Test Circuit 100 On-state current ITM (mA) 60 Ambient temperature Ta ( C) Fig.9 On-state Current vs. On-state Voltage + 400 Vdc RTEST R= 10k 80 CTEST PULSE INPUT 60 40 MERCURY WETTED RELAY D.U.T. X100 SCOPE PROBE 20 0 APPLIED VOLTAGE WAVEFORM 0 0.5 1.0 1.5 2.0 2.5 On-state voltage VTM (V) 15/01/03 40 O Forward current I F (mA) 3.0 0 VOLTS Vmax = 400V 252 V RC dv/dt= 0.63 Vmax RC = DB92698m-AAS/A3 378 RC