Power electronics companies have switched from silicon transistors to GaN E-HEMT transistors because they allow much higher switching frequencies while maintaining or increasing efficiency. GaN transistors allow power designers to realize the benefits of these devices over their silicon predecessors by reducing system size and weight up to 5 times, by decreasing power losses up to 90%, and by lowering BOM cost.
Today, power engineers use GaN transistors to help design more efficient power supply solutions. GaN Systems’ family of 650V GaN E-HEMT transistors provide a series of solutions for designers to address their power challenges. Figure 1, above, shows GaN Systems’ GS66508B half bridge daughter board.
GaN transistors’ very fast switching speed requires gate drivers that combine very high timing accuracy with excellent common-mode transient immunity (CMTI). Silicon Labs addresses this need by providing a family of isolated gate drivers which are incorporated into GaN Systems’ evaluation boards. For example, the Si827x ISOdriver family exhibits very high noise immunity (200 kV/µsec) and latch-up immunity (400 kV/µsec). Their high CMTI suits the Si827x drivers for fast-switching GaN transistors and mitigating potentially noisy power supply systems.
To simplify engineers’ product development efforts, power design optimization can be achieve by using a common evaluation motherboard GS665MB-EVB, paired with one of several daughter boards (e.g. Figure 1) that can be configured as a buck, boost or double-pulse tester. Interchangeable daughter cards containing 650V GaN E-HEMT transistors ranging from 15A to 60A and Silicon Labs’ fast switching Si827x isolated gate driver plug into the motherboard, which can be used as a reference design for many system applications.
The combination of GaN transistors, Silicon Labs’ Si827x ISOdrivers and the GS66508B-EVBHB evaluation board provides power system designers with a tool for continually improving the performance of their power supply products. These tools allows engineers to meet their market challenges by facilitating the design of more efficient systems, and by helping power supply