While Silicon Carbide (SiC) power devices have been around for some years, GaN power semiconductors have only just appeared in the market. One of the key reasons for the promising outlook for GaN power devices is because GaN is a wide bandgap material which offers similar performance benefits to SiC but has greater cost reduction potential. “This is possible because GaN power devices will be grown on a larger, lower-cost Silicon substrate”, stated Richard Eden, Senior Market Analyst and author of The World Market for Silicon Carbide and Gallium Nitride Power Semiconductors. “The key market driver is the speed at which GaN-on-Si devices can achieve price parity with Silicon MOSFETs, IGBTs or rectifiers with equivalent performance.”
The speed of GaN transistor developments has accelerated in the last two years, possibly due to a realization that the market will be potentially huge. The launch of International Rectifier's “GaNpowIR” and EPC’s “eGaN FET” devices started the low voltage market in 2010. The emergence of Transphorm and its 600V GaN transistors in 2011 created considerable interest in the prospects of GaN competing with high voltage MOSFETs and IGBTs. Six of the world’s top ten discrete power semiconductor suppliers are planning to launch GaN power devices in the near future, and some may already be making devices for in-house end equipment.
The report utilizes IMS Research’s extensive market research on technology markets to drill down into applications ranging from consumer electronics to industrial equipment and renewable energy. The first applications to adopt will be power supplies where the total system cost savings outweigh the unit price penalty of the device. These include PC & notebook adaptors, servers, etc., and domestic appliances like room air-conditioners, where efficiency improvements are being driven by Government initiatives or regulations.
Once reliability and other potential problems are resolved, PV microinverters, electric vehicle battery charging and other new applications are likely to adopt GaN power devices in the future.