Litcius/Paper detail

Long, Short, Monolithic - The Gate Loop Challenge for GaN Drivers: Invited Paper

Maik Peter Kaufmann, Achim Seidel, Bernhard Wicht

202031 citationsDOI

Abstract

With fast switching GaN any parasitic gate loop inductance degrades the switching performance and may lead to false turn-on as well as gate voltage overshoot. Two approaches to overcome these challenges in driving GaN transistors are discussed in this paper. In a discrete silicon based driver, the gate loop inductance is actively utilized for a resonant gate drive approach. In a second implementation, the gate loop inductance is reduced close to zero by GaN-on-Si monolithic integration of the power transistor and the driver on one die. It includes an integrated supply voltage regulator circuit that generates the gate drive voltage out of the high-voltage switching node. The results show fast and robust switching behavior with minimal ringing.

Topics & Concepts

Gate driverTransistorOvershoot (microwave communication)InductanceElectrical engineeringVoltageRingingParasitic elementLogic gateNAND gateGround bounceNode (physics)Loop (graph theory)Materials scienceElectronic engineeringComputer scienceEngineeringGate oxideMathematicsCombinatoricsFilter (signal processing)Structural engineeringSilicon Carbide Semiconductor TechnologiesGaN-based semiconductor devices and materialsAdvanced DC-DC Converters