6EDL04 family 6EDL04x06xT and 6EDL04N02PR family 200 V and 600 V three-phase gate driver with Over Current Protection (OCP), Enable (EN), Fault and Integrated Bootstrap Diode (BSD) Features Product summary Infineon thin-film-SOI-technology V (6EDL04x06xT) = 620 V max. OFFSET Maximum blocking voltage +600 V V (6EDL04N02PR) = 200 V max. OFFSET Output source/sink current +0.165 A/-0.375 A I (typ.) = +0.165 A / -0.375 A O+/- Integrated ultra-fast, low R Bootstrap Diode DS(ON) t / t (6EDL04Ixxxx) = 530ns / 490 ns on off Insensitivity of the bridge output to negative t / t (6EDL04Nxxxx) = 530ns / 530 ns on off transient voltages up to -50 V given by SOI- t /t (typ. C =1 nF) = 60 ns / 26 ns f r L technology Separate control circuits for all six drivers Package Detection of over current and under voltage supply DSO-28 Externally programmable delay for fault clear after over current detection Shut down of all switches during error conditions CMOS and LSTTL compatible input (negative logic) TSSOP-28 Signal interlocking of every phase to prevent cross- conduction Potential applications Home appliance, refrigeration compressors, air-conditioning Fans, pumps Motor drives, general purpose inverters Power tools, light electric vehicles Product validation Qualified for industrial applications according to the relevant tests of JEDEC47/20/22. Description The device 6ED family 2nd generation is a full bridge driver to control power devices like MOS-transistors or IGBTs in 3-phase systems with a maximum blocking voltage of +600 V. Based on the used SOI-technology there is an excellent ruggedness on transient voltages. No parasitic thyristor structures are present in the device. Hence, no parasitic latch-up may occur at all temperatures and voltage conditions. The six independent drivers are controlled at the low-side using CMOS resp. LSTTL compatible signals, down to 3.3 V logic. The device includes an under-voltage detection unit with hysteresis characteristic and an over- current detection. The over-current level is adjusted by choosing the resistor value and the threshold level at pin ITRIP. Both error conditions (under-voltage and over-current) lead to a definite shut down off all six switches. An error signal is provided at the FAULT open drain output pin. The blocking time after over-current can be adjusted with an RC-network at pin RCIN. The input RCIN owns an internal current source of 2.8 A. Therefore, the resistor RRCIN is optional. The typical output current can be given with 165 mA for pull-up and 375 mA for pull down. Because of system safety reasons a 310 ns interlocking time has been realised. The function of input EN can optionally be extended with over-temperature detection, using an external NTC- resistor (see Figure 1). The monolithic integrated bootstrap diode structures between pins VCC and VBx can be used for power supply of the high side. 6EDL04 family Datasheet Please read the Important Notice and Warnings at the end of this document Version 2.7 www.infineon.com/gdThreePhase 1 of 22 2019-03-21 6EDL04 family 200 V & 600 V three-phase driver with OCP, Enable, Fault and Bootstrap Diode Ordering information DC-Bus VCC VCC VB1,2,3 HIN1,2,3 HIN1,2,3 HO1,2,3 LIN1,2,3 LIN1,2,3 To Load VS1,2,3 EN EN 5V FAULT FAULT LO1,2,3 R RCIN COM RCIN C RCIN ITRIP Signals HIN1,2,3 and LIN1,2,3 VSS according to Table 1 R Sh VSS Figure 1 Typical application diagram Ordering information nd Table 1 Members of 6EDL04 family 2 generation Target Evaluation board Sales Name High side control input Typ. UVLO- Bootstrap Package transisto HIN1,2,3 and LIN1,2,3 Thresholds diode r 6EDL04I06NT negative logic IGBT 11.7 V / 9.8 V Yes DSO-28 6EDL04I06PT positive logic IGBT 11.7 V / 9.8 V Yes DSO-28 EVAL-6EDL04I06PT 6EDL04N06PT positive logic MOSFET 9 V / 8.1 V Yes DSO-28 6EDL04N02PR positive logic MOSFET 9 V / 8.1 V Yes TSSOP-28 EVAL-6EDL04N02PR Table of contents Features ......................................................................................................................................................... 1 Product summary .......................................................................................................................................... 1 Package .......................................................................................................................................................... 1 Potential applications ................................................................................................................................... 1 Product validation ......................................................................................................................................... 1 Description ..................................................................................................................................................... 1 Ordering information ..................................................................................................................................... 2 Table of contents ........................................................................................................................................... 2 1 Block diagram ...................................................................................................................................... 4 2 Lead definitions .................................................................................................................................... 5 3 Functional description ......................................................................................................................... 6 3.1 Low Side and High Side Control Pins (Pin 2, 3, 4, 5, 6, 7) ....................................................................... 6 3.2 EN (Gate Driver Enable, Pin 10) ............................................................................................................... 7 3.3 /FAULT (Fault Feedback, Pin 8) ............................................................................................................... 7 6EDL04 family Datasheet 2 of 22 Version 2.7 www.infineon.com/gdThreePhase 2019-03-21