NCV5702 High Current IGBT Gate Driver The NCV5702 is a highcurrent, highperformance standalone IGBT driver for high power applications that include solar inverters, motor control and uninterruptible power supplies. The device offers a www.onsemi.com costeffective solution by eliminating many external components. Device protection features include Active Miller Clamp, accurate UVLO, EN input, DESAT protection and Active opendrain FAULT MARKING output. The driver also features an accurate 5.0 V output and separate DIAGRAM high and low (VOH and VOL) driver outputs for system design convenience. The driver is designed to accommodate a wide voltage range of bias supplies including unipolar and bipolar voltages. It is NCV5702DR2G SOIC16 available in a 16 pin SOIC package. AWLYWW D SUFFIX CASE 751B Features High Current Output (+4/6 A) at IGBT Miller Plateau Voltages A = Assembly Location WL = Wafer Lot Low Output Impedance of VOH & VOL for Enhanced IGBT Driving Y = Year Short Propagation Delays with Accurate Matching WW = Work Week Direct Interface to Digital Isolator/Optocoupler/Pulse Transformer G = PbFree Package for Isolated Drive, Logic Compatibility for Nonisolated Drive Active Miller Clamp to Prevent Spurious Gate Turnon DESAT Protection with Programmable Delay PIN CONNECTIONS Enable Input for Independent Driver Control EN 1 CLAMP Tight UVLO Thresholds for Bias Flexibility 16 Wide Bias Voltage Range including Negative VEE Capability VIN 2 15 VEEA This Device is PbFree, HalogenFree and RoHS Compliant VREF 14 VEE 3 FLT 4 13 GND Typical Applications GNDA VOL 5 12 Motor Control NC 6 11 VOH Uninterruptible Power Supplies (UPS) VCC RSVD 7 10 Automotive Power Supplies NC DESAT 8 9 HEV/EV PTC Heaters (Top View) VREF DESAT ORDERING INFORMATION VCC VCC See detailed ordering and shipping information on page 6 of EN this data sheet. VOH VOL CLAMP VIN GND VEE VEE FLT Figure 1. Simplified Application Schematic Semiconductor Components Industries, LLC, 2018 1 Publication Order Number: August, 2019 Rev. 1 NCV5702/DNCV5702 Figure 2. Detailed Block Diagram Figure 3. Simplified Block Diagram www.onsemi.com 2