Navitas Semiconductor has announced the launch of GaNFast power ICs with GaNSense technology. GaNSense technology integrates critical, real-time, autonomous sensing and protection circuits which further improves Navitas’ industry-leading reliability and robustness while increasing the energy savings and fast-charging benefits of Navitas’ GaN IC technology. Gallium nitride (GaN) is a next-generation semiconductor technology that runs […]
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High-power 650V/800V GaN ICs combine power FET and gate driver
Navitas Semiconductor announced the NV6128, a new high-power 650V/800V-rated GaNFast power IC to address the high-power mobile and consumer power electronics market and take market share from the old, slow, silicon chip. The 70 mOhm NV6128 represents a 66% increase in current capability, in a small, 6 x 8 mm PQFN package with a proprietary, […]
65W USB-PD (Type C) adapter reference design for GaN power ICs
Navitas Semiconductor announced what they say is the world’s smallest 65W USB-PD (Type C) adapter reference design, to keep pace with the dramatic size and weight reductions in laptop designs over the last 10 years. High-frequency, high-efficiency AllGaN Power ICs are used to deliver 65W in only 45cc / 2.7in3 and only 60g in weight by minimizing […]
Production-qualified GaN power ICs offer 650V, 160mΩ power FET
Navitas Semiconductor announced the immediate availability of production qualified iDrive™ Gallium Nitride (GaN) Power ICs using the company’s proprietary AllGaN™ technology. The NV6131, NV6105 & NV6115 offer a high-efficiency 650V, 160mOhm power FET with increasing integration of digital and analog circuits, leading to high speed, energy efficiency, power density and reduced system cost. GaN can […]
GaN power ICs integrate FETs with drive circuits for fast switching
Navitas Semiconductor has announced the world’s first Gallium Nitride (GaN) Power ICs, using its proprietary AllGaN monolithically-integrated 650V platform. Combining GaN power FETs with GaN logic and drive circuits enables 10x-100x higher switching frequency than existing silicon circuits, making power electronics smaller, lighter and lower cost. A new generation of high frequency, energy efficient converters […]
