Automotive Dual Channel SiC MOSFET Gate Driver Reference Design with Two Level Turn-off Protection
Description
This reference design is an automotive qualified isolated gate driver solution for driving Silicon Carbide (SiC) MOSFETs in half bridge configuration. The design includes two push pull bias supplies for the dual channel isolated gate driver respectively and each supply provides +15V and -4V output voltage and 1W output power. The gate driver is capable of delivering 4A source and 6A sink peak current. It implements reinforced isolation and can withstand 8kV Peak and 5.7kV RMS isolation voltage and >100V/ns common mode transient immunity (CMTI). The reference design contains the two-level turn-off circuit which protects the MOSFET from voltage overshoot during the short circuit scenario. The DESAT detection threshold and the delay time for second stage turn-off are configurable. The ISO7721-Q1 digital isolator is implemented for interfacing the signals of fault and reset. All designed on a two layer PCB board with a compact form factor of 40mm × 40mm.
Features
- Compact: dual-channel: gate-driver solution for driving SiC MOSFETs in half bridge configuration4-A source and 6-V sink peak current driving capability suitable for driving SiC MOSFET: Si MOSFET: and IGBT with switching frequency up to 500 kHzBuilt-in: compact: high-efficiency: isolated-bias supply: with 15V and –4V outputsDiscrete: two-level turn-off for short-circuit protection: with adjustable current limit and delay (blanking) timeProvides high CMTI of > 100 V/ns and reinforced isolation of 8-kV peak and 5.7-kV RMS voltages
Applications
- Railway auxiliary power
- Fuel cell control unit (FCCU)
- 1-phase AC-digital control
- 3-phase AC-analog control
- 1-phase AC-analog control
- 3-phase AC-digital control
- OBC-wireless charging
- Unidirectional 400 V & 800 V to LV
- Unidirectional HV-to-LV digital loop
- Bidirectional 400-V & 800-V to LV
Product Categories
- Isolation