博客 -- 氮化镓技术如何击败硅技术

2月 22, 2024

Why you shouldn’t use Rds(on) to select and compare devices in switching power converters

Andrea Gorgerino, Director of Global Field Application Engineering

Learn why RDS(ON) shouldn't be your main criteria for selecting switching devices. EPC's insights reveal a more effective approach for evaluating GaN FETs.

2月 08, 2024

How Picotest Uses eGaN FETs to Design Groundbreaking High-Speed Transient Load Current Steppers - Revolutionizing Power System Testing for Data Center, AI, EV, ASIC, and Server Applications

Renee Yawger, Director of Marketing

Discover how Picotest's transient load current steppers, powered by EPC's eGaN FETs, are transforming power system testing in data centers, AI, EVs, & more.

1月 22, 2024

BrightLoop Converters and EPC: Collaborators Pushing the Boundaries of Power Conversion and Facilitating the Energy Transition

Renee Yawger, Director of Marketing

Discover how BrightLoop Converters reduced the size and cost of its converter while enhancing its reliability with EPC gallium nitride parts.

11月 14, 2023

如何选择最佳的氮化镓(GaN)栅极驱动器

Chang-Woo Ryu, Senior FAE, Korea

了解在选择氮化镓(GaN)栅极驱动器时应考虑的关键因素,在这里为您的电力电子产品设计做出最佳选择。

8月 24, 2023

This is how Gallium Nitride (GaN) is Accelerating Vehicle Electrification - From ICE to MHEV to BEV

Renee Yawger, Director of Marketing

In this blog post, we examine the three major stages of this evolution – from ICE to mild hybrid (MHEV) to BEV – and explore the role of low voltage power distribution in shaping the automotive landscape.

8月 08, 2023

氮化镓器件在医疗技术应用的潜力

Renee Yawger, Director of Marketing

为您的医疗技术应用选择氮化镓产品时,请考虑性能要求、尺寸和重量限制、产品和供应商的可靠性,以及成本等因素。我们会针对这些因素为您提供最新一代的氮化镓器件的最佳组合 - 您只需在网上“产品选择指南”的最新一代器件、在状态栏中剔出“首选”。还有多种设计工具可为您的应用选择正确的氮化镓产品,包括降压计算器、热计算器和交叉参考工具,它们都可以在Power Bench工具套件中找到。

8月 02, 2023

A New Approach to Design a More Efficient Vacuum Cleaner Motor Drive Inverter Using EPC9176 Evaluation Boards

Marco Palma, Director of Motor Drives Systems and Applications

Learn how EPC’s new demo board, the EPC9176 with its six QFN-packaged GaN ICs allows for more efficient, high-performance vacuum cleaner motors.

5月 10, 2023

氮化镓器件的开关频率:在下一代高频电路中使用氮化镓技术

Renee Yawger, Director of Marketing

氮化镓(GaN)器件是一种非常坚硬和在机械方面非常稳定的宽带隙半导体材料,用于生产功率器件、射频元件和发光二极管 (LED)。其开关频率远高于硅器件,使电力电子设计人员能够利用氮化镓器件创建更小、更高效、性能更高的系统,这是以前采用硅技术难以实现。

4月 13, 2023

基于氮化镓器件的音频放大器 - 音频功放的最新技术

Renee Yawger, Director of Marketing

基于氮化镓器件的音频放大器 - 音频功放的最新技术

1月 28, 2023

氮化镓功率集成电路通往可持续发展未来的道路

Renee Yawger, Director of Marketing

可持续能源是当今全球重要需求。发展中经济体努力建设能源基础设施以支持工业和为偏远村庄供电。与此同时,工业化经济体正在努力平衡对更大供电需求的相互冲突和减少对环境的影响。氮化镓(GaN)集成电路为设计人员提供具备更高功率密度、更高效和可使能新应用优势的功率器件。随着全球能源成本的上升,氮化镓器件的普及化急剧加快也就不足为奇了。