EPC’s EPC2066 Gallium Nitride (GaN) Field-Effect Transistor (FET) represents a groundbreaking advancement in power semiconductor technology. Operating at a frequency much higher than traditional silicon-based counterparts, this innovative device offers exceptional performance and efficiency, coupled with a remarkably compact form factor.
At its core, the EPC2066 is engineered to deliver unparalleled power density. With a voltage rating of 40 V and a low on-resistance of 1.1 mΩ, it enables efficient power conversion in a variety of applications. Its ability to handle pulsed currents of up to 639 A makes it particularly well-suited for demanding scenarios where space is at a premium and power efficiency is critical.
One of the standout features of the EPC2066 is its compact size, occupying a mere 13.9 mm² of board space. This diminutive footprint not only conserves valuable real estate in densely populated electronic systems but also contributes to lower parasitic capacitances and inductances, further enhancing performance.
The advantages of GaN technology extend beyond mere miniaturization. The EPC2066’s high-frequency operation capability enables rapid switching speeds, reducing switching losses and improving overall system efficiency. This is especially beneficial in applications such as DC/DC converters for servers and artificial intelligence, where high switching frequencies are desirable to minimize size and weight while maximizing power density.
Moreover, the EPC2066 finds utility in a diverse range of scenarios, including secondary side synchronous rectification in power supplies and data center servers. Its versatility extends to high-density motor drive applications, offering reliable and efficient performance across a wide voltage range from 24 V to 32 V.
In conclusion, EPC’s EPC2066 GaN FET represents a paradigm shift in power semiconductor design, offering a compelling combination of high-frequency operation, efficiency, and compactness. By enabling state-of-the-art power density, it empowers engineers to create next-generation electronic systems that are smaller, more efficient, and more capable than ever before.
BLDC motor drives:
eBikes
eScooters
Robotics
Drones
Power tools
48V DC/DC conversion:
Data centers
AI servers
Industrial automation
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