部落格:氮化鎵技術如何擊敗矽技術

二月 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.

二月 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.

一月 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.

十一月 14, 2023

如何選擇最佳的氮化鎵(GaN)柵極驅動器

Chang-Woo Ryu, Senior FAE, Korea

瞭解在選擇氮化鎵(GaN)柵極驅動器時應考慮的關鍵因素,在這裏為您的電力電子產品設計做出最佳選擇。

八月 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.

八月 08, 2023

氮化鎵元件在醫療技術應用的潜力

Renee Yawger, Director of Marketing

医疗技术行业涵盖对疾病和慢性病的预防、诊断和治疗的医疗设备。根据《财富商业洞察》,全球医疗设备行业市场预计将从2022年的4954.6亿美元增长到2029年的7189.2亿美元,复合年增长率为5.5%。

八月 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.

五月 10, 2023

氮化鎵元件的開關頻率:在下一代高頻電路中使用氮化鎵技術

Renee Yawger, Director of Marketing

氮化鎵(GaN)元件是一種非常堅硬和在機械方面非常穩定的寬帶隙半導體材料,用于生產功率元件、射頻元件和發光二極體 (LED)。其開關頻率遠高於矽元件,使電力電子設計人員能够利用氮化鎵元件創建更小、更高效、性能更高的系統,這是以前採用矽技術難以實現。

四月 13, 2023

基於氮化鎵元件的音頻放大器 - 音頻功放的最新技術

Renee Yawger, Director of Marketing

傳統上,發燒友一直看不起D類音頻放大器,因為開關電晶體從未實現具備足够開環綫性度的放大器以滿足最挑剔的聽衆的需求。隨著氮化鎵電晶體和積體電路的普及,設計人員現在可以用行銷標題為“達到THD+N性能目標和減少瞬態互調失真,實現微妙的溫暖感和添加色彩,享受最佳的聆聽體驗”。

一月 28, 2023

氮化鎵功率積體電路通往可持續發展未來的道路

Renee Yawger, Director of Marketing

可持續能源是當今全球的重要需求。發展中經濟體努力建設能源基礎設施以支持工業和為偏遠村莊供電。與此同時,工業化經濟體正在努力平衡對更大供電需求的相互衝突和減少對環境的影響。氮化鎵(GaN) 積體電路為設計人員提供具備更高功率密度、更高效和可使能新應用優勢的功率元件。隨著全球能源成本的上升,氮化鎵元件的普及急劇加快也就不足為奇了。