CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Features Description The CTS701 consists of a GaAsP LED optically • Peak Output Current : IOP = ±0.6A (max) • Threshold Input Current: IFLH = 5 mA (max) • Common mode transient immunity : ±10kV/µs (min • Pb free and RoHS compliant. • Regulatory Approvals UL - UL1577 (E364000) VDE - EN60747-5-5(VDE0884-5) CQC – GB4943.1, GB8898 IEC60065, IEC60950 coupled to an integrated circuit with a power output ) stage. This optocoupler is ideally suited for driving power IGBTs and MOSFETs used in motor control inverter applications. The high operating voltage range of the output stage provides the drive voltages required by gate controlled devices. Applications • Isolated IGBT/Power MOSFET gate drive • Industrial Inverter • AC brushless and DC motor drives • Induction Heating Package Outline CT Micro Proprietary & Confidential Schematic Page 1 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Truth Table Vcc-VEE Vcc-VEE Positive Going Negative Going Off 0 to 30 V 0 to 30V Low On 0 to 6.5V 0 to 6V Low On 6.5 to 8.3V 6 to 8V Transition On 8.3 to 30V 8 to 30V High LED Output Absolute Maximum Rating at 250C Symbol Parameters Ratings Units Notes 5000 VRMS 1 VISO Isolation voltage TOPR Operating temperature -40 ~ +100 0C TSTG Storage temperature -55 ~ +125 0C TSOL Soldering temperature 260 0C 2 fOPR Operating Frequency 25 kHz 3 IF Forward current 25 mA IFP Peak forward current (PW≤1µs, 300pps) 1 A VR Reverse voltage 5 V PD Input Power Dissipation 40 mW Power dissipation 160 mW Peak Output Voltage 35 V VCC Supply Voltage 35 V IOPH Output High Peak Current -0.6 A 4 IOPL Output Low Peak Current 0.6 A 4 Emitter Detector Pc VO(PEAK) Notes 1. AC for 1 minute, RH = 40 ~ 60%. 2. For 10 second peak 3. Exponential Waveform, IO(PEAK) ≤ |0.3A|, Pulse Width ≤ 2us 4. Pulse Width ≤ 2uS, f ≤ 15kHz CT Micro Proprietary & Confidential Page 2 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Recommended Operating Conditions Characteristics Symbol Min. Input Current IF(ON) Input Voltage Typ. Max. Unit 7.5 10 Ma VF(OFF) 0 0.8 V Supply Voltage VCC 10 30 V Peak Output Current IOPH/IOPL ±0.2 A Operating Temperature Topr 100 oC -40 Electrical Characteristics Typical values are measured at Vcc=30V, VEE= Gnd, TA = -400C to 1000C (unless otherwise specified) Emitter Characteristics Symbol Parameters Test Conditions Min Typ* Max Units VF Forward Voltage IF = 5mA - 1.4 1.7 V VR Reverse Voltage IR = 10µA 5.0 - - V - -1.7 - mV/°C Min Typ* Max Units Notes Temperature coefficient of forward ∆VF/∆TA IF =5mA voltage Detector Characteristics Symbol Parameters Test Conditions ICCL Logic Low Supply Current VF = 0 to 0.8V, VO= Open - 1.95 3 ICCH Logic High Supply Current IF= 7mA to 10mA, VO= Open - 1.98 3 Test Conditions Min Typ* Max Notes mA Transfer Characteristics Symbol Parameters VOH High Level Output Voltage IF= 5mA, IO= -100mA 6.0 9.7 - VOL Low Level Output Voltage VCC= 10V, IO= 100mA - 0.28 1.0 VCC= 15V, V6-5= 4V, IF= 5mA - -1.1 -0.2 IOPH High Level Output Current -1.8 -0.4 Units Notes V A VCC= 15V, V6-5= 10V, IF= 5mA IOPL VCC= 15V, V6-5= 2V, IF= 0mA 0.2 0.66 - VCC= 15V, V6-5= 10V, IF= 0mA 0.4 1.34 - Low Level Output Current A IFLH Input Threshold Current VO> 1V, VCC= 15V - 3.8 5 mA VFHL Input Threshold Voltage VO< 1V, VCC= 15V 0.8 - - V (*): All typical value are at Ta = 250C CT Micro Proprietary & Confidential Page 3 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Electrical Characteristics Typical values are measured at Vcc=30V, VEE= Gnd, TA = -400C to 1000C (unless otherwise specified) Switching Characteristics Symbol Parameters Test Conditions Min Typ Max Units TPHL High to Low Propagation Delay - 110 200 ns TPLH Low to High Propagation Delay - 120 200 ns PWD Pulse Width Distortion IF= 7 to 16mA, CL= 3nF, - - 45 ns tPSK Propagation Delay Skew RL= 47Ω - - 38 ns tr Rise Time - 30 100 ns tf Fall Time - 15 60 ns -10 - - kV/µs 10 - - kV/µs Notes IF= 7 to 16mA |CMH| Common Mode Transient High VCC= 30V, TA= 250C, |CML| Common Mode Transient Low VCM= 1kV VO(min)=26V IF= 0mA VO(max)=1V (*): All typical value are at Ta = 250C CT Micro Proprietary & Confidential Page 4 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Typical Performance Curve CT Micro Proprietary & Confidential Page 5 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler CT Micro Proprietary & Confidential Page 6 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Test Circuits Power Supply + C1 0.1uF + C2 47uF VCC=10V to 30V IF=7mA~16mA IOH Frequency=200Hz Duty Cycle=0.2% VOH C3 + 0.1uF C4 47uF + Power Supply - V=0V to 10V D1 Input Monitor R1=100ohm Output Monitor Fig. 11 Test Circuit : IOPH Power Supply + C1 + 0.1uF VCC=10V to 30V C2 47uF IF=7mA~16mA IOL Power Supply Frequency=200Hz Duty Cycle=99.8% + VOL D1 C3 + 0.1uF C4 47uF V=0V to 10V Input Monitor R1=100ohm Output Monitor Fig. 12 Test circuit : IOPL CT Micro Proprietary & Confidential Page 7 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler 0.1uF IF=7mA to 16mA 0.1uF VO + - VCC=10V to 30V 100mA + VF= -0.3V to 0.8V VO + - VCC=10V to 30V 100mA Fig. 13 Test circuit : VOH Fig. 14 Test circuit : VOL 0.1uF IF=7mA to 16mA 0.1uF VO + - VCC=10V to 30V + VF= -0.3V to 0.8V Fig. 15 Test circuit : ICCH VO > 1V + - VCC=10V to 30V 0.1uF + VF= -0.3V to 0.8V Fig. 17 Test circuit: IFLH CT Micro Proprietary & Confidential + - VCC=10V to 30V Fig. 16 Test circuit : ICCL 0.1uF IF=7mA to 16mA VO VO < 1V + - VCC=10V to 30V Fig. 18 Test circuit: VFHL Page 8 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler IF=7mA~16mA 0.1uF Frequency=10kHz Duty Cycle=50% + - VCC=10V to 30V VO Rg=47Ω Cg=3nF Input Monitor R1=100ohm IF tr tf 90% 50% 10% VOUT tPLH tPHL Fig. 19 Test circuit and waveforms for tPHL, tPLH, tr, and tf IF 0.1uF VO > 1V + - VCC=30V - + VCM VCM 0V t VOH VO IF=10mA VO VOL IF=0mA Fig. 20 Test circuit for Common mode Transient Immunity CT Micro Proprietary & Confidential Page 9 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Package Dimension Dimensions in mm unless otherwise stated Surface Mount Lead Forming Surface Mount (Gullwing) Lead Forming (SM Type) CT Micro Proprietary & Confidential Page 10 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Device Marking CT 701 YWWK Note: CT 701 Y : Denotes “CT Micro” : Part Number : Fiscal Year WW K : Work Week : Manufacturing Code Ordering Information CTS701(Y)(Z) Y = Lead form option (SM or none) Z = Tape and reel option (T1, T2) Option Description Quantity (T1) Option 1 Taping 1500 Units/Reel (T2) Option 2 Taping 1500 Units/Reel (SM)(T1) Option 1 Taping 1500 Units/Reel (SM)(T2) Option 2 Taping 1500 Units/Reel CT Micro Proprietary & Confidential Page 11 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler Reflow Profile Profile Feature Pb-Free Assembly Profile Temperature Min. (Tsmin) 150°C Temperature Max. (Tsmax) 200°C Time (ts) from (Tsmin to Tsmax) 60-120 seconds Ramp-up Rate (tL to tP) 3°C/second max. Liquidous Temperature (TL) 217°C Time (tL) Maintained Above (TL) 60 – 150 seconds Peak Body Package Temperature 260°C +0°C / -5°C Time (tP) within 5°C of 260°C 30 seconds Ramp-down Rate (TP to TL) 6°C/second max Time 25°C to Peak Temperature 8 minutes max. CT Micro Proprietary & Confidential Page 12 Rev 1 Jan, 2014 CTS701 0.6A MOSFET/IGBT Gate Driver Optocoupler DISCLAIMER CT MICRO RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. CT MICRO DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. CT MICRO ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT EXPRESS WRITTEN APPROVAL OF CT MICRO INTERNATIONAL CORPORATION. 2. A critical component is any component of a life 1. Life support devices or systems are devices or systems which, (a) are intended for surgical support device or system whose failure to perform implant into the body, or (b) support or sustain life, can be reasonably expected to cause the failure of or (c) whose failure to perform when properly used the life support device or system, or to affect its in accordance with instruction for use provided in safety or effectiveness. the labelling, can be reasonably expected to result in significant injury to the user. CT Micro Proprietary & Confidential Page 13 Rev 1 Jan, 2014