Renesas Electronics Launches Next-Generation 650V GaN FET: Empowering High-Power Applications with Unique D-MODE

Renesas Electronics Launches Next-Generation 650V GaN FET: Empowering High-Power Applications with Unique D-MODE

According to a report by Electronic Enthusiasts (Author: Wu Zipeng), with the rapid development of applications in artificial intelligence, data centers, automotive electronics, and consumer electronics, third-generation semiconductors—GaN (Gallium Nitride)—are experiencing unprecedented growth opportunities. According to statistics from TrendForce, the global GaN power device market is expected to reach $485 million in 2024 and $4.376 … Read more

Renesas Electronics Shifts Focus to AI, Halts SiC Business

Renesas Electronics Shifts Focus to AI, Halts SiC Business

Renesas Electronics Shifts Focus to AI, Halts SiC Business Japanese semiconductor giant Renesas Electronics has recently announced a major strategic adjustment. According to reports from Nikkei News and Nikkan Kogyo Shimbun, the company will terminate its mass production plans for silicon carbide (SiC) power semiconductors and fully transition to three core areas: edge AI, AIoT, … Read more

GaN Power Chip U8722X Series Welcomes U8722FE with 65W Power Output

GaN Power Chip U8722X Series Welcomes U8722FE with 65W Power Output

GaN Power Chip U8722X Series Welcomes U8722FE with 65W Power OutputU8722FE GaN power chipU8722Xfamily welcomes a new member –U8722FE, with a recommended maximum output power of65W, integratingMOSwith a voltage rating of700V, usingESOP-7package, with 5000 pieces per reel, and an integratedBoostpower supply circuit, making it very suitable for applications with wide output voltage ranges. The GaN … Read more

Scientists Successfully 3D Print Vascular Networks for Artificial Organs: Plans to 3D Print Organs in Pigs Within 5 Years

Scientists Successfully 3D Print Vascular Networks for Artificial Organs: Plans to 3D Print Organs in Pigs Within 5 Years

In the ongoing exploration of alternatives to organ transplantation in the medical field, on June 23, 2025, a research team led by Professor Alison Marsden at Stanford University announced findings that mark a new stage in3D bioprinting technology. This groundbreaking technology, through a dual approach of algorithmic revolution and material innovation, successfully constructs artificial vascular … Read more