EiceDRIVER 2EDi product family Fast, robust, dual-channel, functional and reinforced isolated MOSFET gate-driver with accurate and stable timing Description The EiceDRIVER 2EDi is a family of fast dual-channel isolated MOSFET gate-driver ICs providing functional (2EDFx) or reinforced (2EDSx) input-to-output isolation by means of coreless transformer (CT) technology. Due to high driving current, excellent common-mode rejection and fast signal propagation, 2EDi is particularly well suited for driving medium- to high-voltage MOSFETs (CoolMOS, OptiMOS) in fast-switching power systems. Features 4 A / 8 A or 1 A / 2 A source / sink output current Up to 10 MHz PWM switching frequency PWM signal propagation delay typ. 37 ns with 3 ns channel-to-channel mismatch +7/-6 ns propagation delay variance Resistor-programmable Dead Time Control (DTC) ranging from 15 ns to 250 ns Common Mode Transient Immunity CMTI >150 V/ns Fast safety turn-off in case of input side Undervoltage Lockout (UVLO) Output supply voltage from 4.5 V to 20 V with 4V or 8V UVLO threshold Wide temperature operating range T = -40C to +150C J RoHS compliant wide /narrow-body (WB/NB) DSO16 and 5 mm x 5 mm LGA packages Fully qualified according to JEDEC for Industrial Applications Isolation and safety certificates 2EDSx with reinforced isolation, certified according to DIN V VDE V 0884-10 (2006-12) with V = 8 kV and V = 6.25 kV (tested at 10kV ) IOTM pk IOSM pk pk UL1577 (Ed. 5) opto-coupler component isolation standard with V = 5700 V ISO RMS IEC60950 and IEC602386 system standards and corresponding CQC certificates 2EDFx with functional isolation: Production test with 1.5 kV for 10 ms DC Potential Applications Server, telecom and industrial SMPS Synchronous rectification, brick converters, UPS and battery storage EV charging industry automation, motor drives and power tools VDD > 3.5V V Bus R VDDA VDDI VDDI VDD 8 UVLO UVLO (3.3V) C VDDI SLDON TX RX SLDO OUTA Rg1 Controller Logic M1 INA C 8 VDDA PWM1 GNDA Control Vsw Channel-to-Channel Logic D boot INB Isolation 8 PWM2 VDDB Aux Power UVLO (12V) DISABLE 8 GPIOx TX RX OUTB Rg2 Logic R M DTC DTC 2 Dead Time Control GND C VDDB 3 GNDB GNDI PGND Final datasheet Please read the Important Notice and Warnings at the end of this document Rev. 2.4 www.infineon.com 2019-02-08 Input-to-Output Isolation EiceDRIVER 2EDi product family 2EDSx reinforced, 2EDFx functional isolated 4A/8A, 1A/2A gate drivers Table of Contents Description 1 Table of Contents . 2 1 Description 3 1.1 EiceDRIVER 2EDi product family device overview 3 1.2 Input-to-output isolation testing 4 1.3 Channel-to-channel isolation testing 4 1.4 Application overview and system block diagram . 4 2 Pin configurations by device type . 5 2.1 Pin configuration for dual-channel input mode with (with DISABLE, SLDON) 5 2.2 Pin configuration for dual-channel input mode (with DISABLE, SLDOP, DTC) 7 3 Functional description . 9 3.1 Block diagram 9 3.2 Input-to-output isolation . 9 3.2.1 Typical applications by isolation type . 10 3.3 Supply voltages 10 3.3.1 Input-side power supply . 10 3.3.2 Output-side power supply . 10 3.4 Input configurations 11 3.5 Driver outputs . 11 3.6 Undervoltage Lockout 12 3.6.1 Input-side UVLO 12 3.6.2 Output-side UVLO 12 3.7 Data transmission input-side to output-side 12 3.8 Dead Time Control . 12 4 Device characteristics 13 4.1 Absolute maximum ratings 13 4.2 Thermal characteristics . 14 4.3 Operating range 15 4.4 Electrical characteristics 15 4.5 Functional and reinforced isolation specifications . 18 4.5.1 Functional isolation specifications . 18 4.5.1.1 Functional isolation of devices in PG-TFLGA-13-1 package 18 4.5.1.2 Functional isolation of devices in NB PG-DSO-16-11 package . 19 4.5.2 Reinforced isolation of devices in WB PG-DSO-16-30 package . 20 4.5.3 Safety-limiting values . 22 5 Timing diagrams . 23 6 Typical characteristics 24 7 Package outline dimensions . 29 7.1 Device numbers and markings . 29 7.2 Package PG-DSO-16-11 . 29 7.3 Package PG-DSO-16-30 . 31 7.4 Package PG-TFLGA-13-1 32 Revision history . 34 Final datasheet 2 Rev. 2.4 2019-02-08