ICPL3120

ISOCOM COMPONENTS LTDUnit 25B, Park View Road West,Park View Industrial Estate, Brenda RoadHartlepool, Cleveland, TS25 1YDTel: (01429) 863609 Fax :(01429) 8635812.5A Output Current, High CMEGate Drive OptocouplerICPL-3120Description The ICPL3120 optocoupler is ideally suited for driving power IGBTs and MOSFETs used in motor control inverter applications and inverters in power supply system. It contains a AlGaAs LED optically coupled to an integrated circuit with a power output stage. The 2.5A peak output current is capable of directly driving most IGBTs with ratings up to 1200 V/100 A. For IGBTs with higher ratings, the ICPL3120 series can be used to drive a discrete power stage which drives the IGBT gate.The Optocoupler operational parameters are guaranteed over the temperature range from -40 oC ~ +110 oC.Features ? 2.5 A maximum peak output current ? 25 kV/us minimum Common Mode Rejection (CMR) at VCM = 1500 V ? 3.8 mA maximum supply current (I CC )? Under Voltage Lock-Out protection (UVLO) with hysteresis ? Wide operating range: 15 to 30 Volts (V CC )? Guaranteed performance over temperature -40 oC ~ +110 oC.? Offer low power dissipation with R ON ≤ 1?? Fast switching speed, 500ns max propagation delay ? Safety approval: UL, cUL, VDE (In process)Application? IGBT/MOSFET gate drive ? Uninterruptible power supply (UPS) ? Industrial Inverter ? Induction heating Truth Table LEDVCC -GND(Turn-ON, +ve going) VCC -GND(Turn-OFF, -ve going) VOOFF 0 - 30 V 0 - 30 V Low ON 0 – 11.5 V 0 – 10 V Low ON 11.5 - 13.5 V 10 - 12 V Transition ON 13.5 - 30 V 12 - 30 V High A 0.1 μ F bypass Capacitor must be connected between Pin 5 and 8. (Note 8) Functional Diagram ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 2 of 18Ordering Information Part Option Remarks ICPL3120 DIP-8 G Wide Lead Spacing, DIP-8 SM Surface Mount, SMD-8 T&R Surface Mount, SMD-8, Pin 1 location at lower right of the reel T&R1 Surface Mount, SMD-8, Pin 1 location at upper left of the reel ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 3 of 18Package Dimensions 8-pin DIP Package ( ICPL3120 ) *1. Year date code. *2. 2-digit work week. *3. Factory identification mark Dimensions are in Millimeters and (Inches). ICPL3120 ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 4 of 18Package Dimensions 8-pin DIP Wide Lead Spacing Package ( ICPL3120G ) *1. Year date code. *2. 2-digit work week. *3. Factory identification mark Dimensions are in Millimeters and (Inches). ICPL3120 ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 5 of 18Package Dimensions 8-pin DIP Surface Mount Package ( ICPL3120SM ) *1. Year date code. *2. 2-digit work week. *3. Factory identification mark . Dimensions are in Millimeters and (Inches). ICPL3120 ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 6 of 18Taping Dimensions ICPL3120SM-TA ICPL3120S-TA1 ICPL3120SM-TA1 Description Symbol Dimensions in millimeters ( inches ) Tape wide W 16 ± 0.3 ( .63 ) Pitch of sprocket holes P0 4 ± 0.1 ( .15 ) Distance of compartment F P2 7.5 ± 0.1 ( .295 ) 2 ± 0.1 ( .079 ) Distance of compartment to compartment P1 12 ± 0.1 ( .472 ) ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 7 of 18Recommended Lead Free Reflow Profile ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 8 of 18Absolute Maximum Ratings Ambient temperature = 25 o C, unless otherwise specified. Stresses exceeding the absolute maximum ratings can cause permanent damage to the device. Exposure to absolute maximum ratings for long periods of time can adversely affect reliability. Parameter Symbol Min Max Units Storage Temperature TST -55 125 oC Operating Temperature TA -40 110 oC Isolation Voltage VISO 5000 VRMSSupply Voltage VCC 0 35 V Lead Solder Temperature (9) TSOL 260 ° C InputAverage Forward Input Current IF(AVG) 25 mA Reverse Input Voltage VR 5 V Peak Transient Input Current ( 5V, I O = 0A IFLH 2.89 5 mA 9,16,21 Input Threshold Voltage (High to Low) VO 5V, I F = 10 mA VUVLO+ 11.5 13.5 V 22 VO 5 V T UVLO ON 1.5 μ s UVLO turn off delay I F = 10 mA, VO < 5 V TUVLO OFF 0.2 μ s Common mode transient immunity at high level output (5)I F = 10 to 16 mA, VCM = 1500 V, TA = 25 ° C, VCC = 30 V CMH 25 35 kV/μ s 24 Common mode transient immunity at low level output (6)VF = 0 V, VCM = 1500 V, TA = 25 ° C, VCC = 30 V CML 25 35 kV/μ s Specified over recommended operating conditions. All Typical values at TA = 25 ° C and VCC = 30 V, unless otherwise specified. ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 12 of 18Isolation Characteristics Parameter Test Condition Symbol Min Typ Max Units Withstand Insulation Test Voltage (2) (3)RH ≤ 40-60%, t = 1min, T A = 25oC VISO 5000 V Input-Output Resistance (2) VI-O = 500V DC RI-O 1012 ?Input-Output Capacitance (2) f = 1MHz, T A = 25oC CI-O 0.92 pF Notes : 1) Maximum pulse width = 10us, maximum duty cycle = 0.2%. 2) Device is considered a two terminal device: pins 1, 2, 3 and 4 are shorted together and pins 5, 6, 7 and 8 are shorted together. 3) According to UL1577, each optocoupler is tested by applying an insulation test voltage ≥ 6000 Vrms for 1 second (leakage detection current limit, I I-O ≤ 6 uA). 4) The difference between T PHL and T PLH between any two ICPL3120 parts under same test conditions. 5) Common mode transient immunity in high stage is the maximum tolerable negative dVcm/dt on the trailing edge of the common mode impulse signal, Vcm, to assure that the output will remain high. 6) Common mode transient immunity in low stage is the maximum tolerable positive dVcm/dt on the leading edge of the common mode impulse signal, Vcm, to assure that the output will remain low. 7) Pulse Width Distortion is defined as |T PHL - TPLH | for any given device. ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 13 of 18Typical Performance Curves Figure 1: Output High Voltage drop vs Temperature Figure 2: Output High Current vs Temperature Figure 3: Output High Voltage drop vs High Current Figure 4: Output Low Voltage vs Temperature Figure 5: Output Low Current vs Temperature Figure 6: Output Low Voltage vs Low Current0.00.10.20.3-40 -20 0 20 40 60 80 100TA - Ambient Temperature (C)VOL-OutputLowVoltage(V)Vcc = 15 to 30VVee = 0VVF = -3 to 0.8VIo = 100mA-5.0-4.0-3.0-2.0-1.00.00.0 0.5 1.0 1.5 2.0 2.5IOH - Output High Current (mA)(VOH-VCC)-OutputHighVoltageDrop(V)f = 200Hz, Dcyc = 0.2%IF = 7 to 16mAVcc = 15 to 30VVee = 0100 oC25 oC-40 oC0.01.02.03.04.05.0-40 -20 0 20 40 60 80 100TA - Ambient Temperature (C)IOL-OutputLowCurrent(A)f = 200Hz, Rg = 10 ohmDcyc = 99.8%Vcc = 15 to 30VIF = 7 to 16mAVcc = 30V0.01.02.03.04.05.00.0 0.5 1.0 1.5 2.0 2.5IOL - Output LOW Current (mA)VOL-OutputLowVoltageDrop(V)f = 200HzDcyc = 99.8%VF = -3 to 0.8VVcc = 15 to 30VVee = 025oC100 oC-40 oC-0.3-0.2-0.10.0-40 -20 0 20 40 60 80 100TA - Ambient Temperature (C)(VOH-VCC)-OutputHighVoltagedrop(V)Vcc = 15 to 30VVee = 0VIF = 7 to 16mAIo = -100mA0.01.02.03.04.05.0-40 -20 0 20 40 60 80 100TA - Ambient Temperature (C)IOH-OutputHighCurrent(A)f = 200Hz, Rg = 10 ohmDcyc = 0.2%Vcc = 15 to 30VIF = 7 to 16mAVcc = 30VISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 14 of 18Typical Performance Curves (Continued) Figure 7: Supply Current vs Temperature Figure 8: Supply Current vs Supply Voltage Figure 9: Low to High Threshold Current vs Temperature Figure 10: Propagation vs Vcc Figure 11: Propagation vs Input Current Figure 12: Propagation vs Temperature 0.00.51.01.52.015 27 30 33VCC - Supply Voltage (V)ICC-SupplyCurrent(mA)IccHIccLTA = 25 degVee = 0VIF = 7 to 16mA for ICCHIF = 0mA for ICCL0.00.51.01.52.0-40 0 25 40 85 100TA - Ambient Temperature (C)ICC-SupplyCurrent(mA)IccHIccLVcc = 15 to 30VVee = 0VIF = 7 to 16mA for ICCHIF = 0mA for ICCL012345-40 -20 0 20 40 60 80 100TA - Ambient Temperature (C)IFTH-InputThresholdCurrent(mA)Vcc = 15 to 30VVee = 0VOutput = open10020030040050015 27 30 33VCC - Supply Voltage (V)Tp-PropagationDelay(nS)TpHLTpLHIF = 10mATA = 25 degCf = 10KHz, Dcyc = 50%Rg = 10 ohm, Cg = 10nF100200300400500-40 -20 0 20 40 60 80 100TA - Ambient Temperature (C)Tp-PropagationDelay(nS)TpHLTpLHIF = 10mA Vcc = 30V, Vee = 0Vf = 10KHz, Dcyc = 50%Rg = 10 ohm, Cg = 10nF1002003004005006 8 10 12 14 16IF - Forward LED Curent (mA)Tp-PropagationDelay(nS)TpHLTpLHTA = 25 degCVcc = 30V, Vee = 0Vf = 10KHz, Dcyc = 50%Rg = 10 ohm, Cg = 10nFISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 15 of 18Typical Performance Curves (Continued)Figure 13: Propagation vs Series Load Resistance Figure 14: Propagation vs Load Capacitance (nF) Figure 16: Transfer Characteristics Figure 15: Input Current vs Forward Voltage 10020030040050010 20 30 40 50Rg - Series Load Resistance (Ohm)Tp-PropagationDelay(nS)TpHLTpLHTA = 25 degCVcc = 30V, Vee = 0Vf = 10KHz, Dcyc = 50%Cg = 10 nF1002003004005000 10 20 30 40Rg - Series Load Resistance (Ohm)Tp-PropagationDelay(nS)TpHLTpLHTA = 25 degCVcc = 30V, Vee = 0Vf = 10KHz, Dcyc = 50%Rg = 10 ohm0.0010.010.111010010000.90 1.00 1.10 1.20 1.30 1.40 1.50V F - Forward Voltage (V)IF-ForwardCurrent(mA)TA = 25 oC01020300 1 2 3 4 5 6IF - Forward LED Current (mA)Vo-OutputVoltage(V)Vcc = 30VTA = 25 degCISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 16 of 18Test Circuit Figure 17 : V OH Test Circuit Figure 18 : V OL Test Circuit Figure 19 : I OH Test Circuit Figure 20 : I OL Test Circuit Figure 21 : I FLH Test Circuit Figure 22 : UVLO Test Circuit ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 17 of 18Test Circuit (Continued) V O0.1 μ FVcc = 15 V to 30 VIF = 7 to 16 mA10 nF10 ?200 ?10 KHz50% DUTYCYCLE1234 5678ShieldFigure 23 : t r, tf, tPLH and t PHL Test Circuit and Waveforms Figure 24 : CMR Test Circuit and Waveforms ISOCOM COMPONENTS LTDPart No. : ICPL3120 series (REV. 1, APR 15,2011 ) Page 18 of 18NoticeSpecifications of the products displayed herein are subject to change without notice. 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