Our seemingly insatiable need for more power, delivered with increased efficiency, continues with no end in sight. Even as individual components reduce operating power levels, the systems that they support are expected to do more and more. As a result, aggregate power demands are increasing, easily outpacing the decrease in power needed by the individual component.

Certainly, a large part of the increase in power demands is due to huge installations such as servers and data centers. However, the causes are far more widespread. For example, electric motors are making major inroads in applications long dominated by hydraulic power or internal combustion engines. This includes electric vehicles and hybrid electric vehicles (EVs and HEVs) as well as large-scale robotics and heavy construction equipment.

The workhouse component for these electric power systems has been the silicon-based MOSFET, along with the IGBT. Both of these power switches have seen significant improvements with their capabilities extending to high voltage and power levels, as well as reductions in both their static (R_DS(ON)) and dynamic (switching) losses over the past decades. Now, though, these efforts have reached the point of diminishing returns versus R&D cost.

Fortunately, there’s a disruptive technology that has been in development for many years, and it’s already mature enough to be used in large-scale installations and reaching its market-adoption inflection point. Switching devices—both transistors and diodes—based on silicon-on-carbide (SiC) are redefining capabilities of power-related circuits. These offer far better efficiency and range than today’s best silicon-only MOSFETs, IGBTs, and diodes, and are already in widespread use in top-tier data centers and server farms.

An August 2017 market report from Yole Développement, “Power SiC 2017: Materials, Devices, Modules, And Applications,” puts some numbers on this situation. Their study maintains that, “SiC technologies adoption is going to accelerate with a tipping point in 2019.” The report adds that “…the SiC power market (diode and transistor) is estimated to be more than $200 million (USD) in 2015 and forecasted to be more than $550 million in 2021, with a 2015–2021 CAGR of 19 percent. SiC diodes still dominate the overall SiC market with 85 percent market share…this leading position will not change for several years. In parallel, SiC transistors…should reach 27 percent market share in 2021.”

Their adoption is having the usual beneficial ripple effect of driving down cost, increasing designer experience, creating more-comprehensive specifications, and validating reliability data. All power stages benefit, from those at high-voltage AC down to mid-range DC, and even single-digit DC-rail voltages. (Note that there’s a similar uptake, but not as large, in power devices based on gallium nitride.)

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