Silicon Carbide allows for more efficient, smaller, and more capable power conversion systems but getting the most out of these wide-bandgap devices requires intentional selection of everything around
Event Details
Silicon Carbide allows for more efficient, smaller, and more capable power conversion systems but getting the most out of these wide-bandgap devices requires intentional selection of everything around the switch. One of the most important parts of the system is the gate driver. The gate drive solution directly impacts the switching efficiency of the SiC MOSFET as well as can have features to make systems more reliable like Miller Clamp and Short Circuit Protection.
From the protection features available on the market today, to the robustness of isolated gate driver solutions, this training will teach about the intricacies of Silicon Carbide needs in gate drivers, the variety of gate drivers available, and the benefits of the various features that gate drivers can provide to the system designer.
During this webinar you will learn:
Benefits of Silicon Carbide devices in power systems
Why we need gate drivers for power MOSFETs
Particulars of driving SiC MOSFETs
Common Mode Transient Immunity
Sizing the gate driver power supply and how to implement it
Why certain gate drive voltages are recommended and application considerations
Benefits of additional gate driver features for system design
Miller Clamping
Short Circuit Protection
Fault Reporting
Which gate drivers should be considered depending on the application, including the offering from Analog Devices
Resources available to design in Silicon Carbide and SiC Gate Drivers
more
Virtual Event Details
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Time
(Wednesday) 3:00 pm - 4:00 pm(GMT+02:00)View in my time