TheLostSwede
News Editor
- Joined
- Nov 11, 2004
- Messages
- 17,769 (2.42/day)
- Location
- Sweden
System Name | Overlord Mk MLI |
---|---|
Processor | AMD Ryzen 7 7800X3D |
Motherboard | Gigabyte X670E Aorus Master |
Cooling | Noctua NH-D15 SE with offsets |
Memory | 32GB Team T-Create Expert DDR5 6000 MHz @ CL30-34-34-68 |
Video Card(s) | Gainward GeForce RTX 4080 Phantom GS |
Storage | 1TB Solidigm P44 Pro, 2 TB Corsair MP600 Pro, 2TB Kingston KC3000 |
Display(s) | Acer XV272K LVbmiipruzx 4K@160Hz |
Case | Fractal Design Torrent Compact |
Audio Device(s) | Corsair Virtuoso SE |
Power Supply | be quiet! Pure Power 12 M 850 W |
Mouse | Logitech G502 Lightspeed |
Keyboard | Corsair K70 Max |
Software | Windows 10 Pro |
Benchmark Scores | https://valid.x86.fr/yfsd9w |
United Microelectronics Corporation ("UMC"), a leading global semiconductor foundry, today announced the industry's first 3D IC solution for RFSOI technology. Available on UMC's 55 nm RFSOI platform, the stacked silicon technology reduces die size by more than 45% without any degradation of radio frequency (RF) performance, enabling customers to efficiently integrate more RF components to address the greater bandwidth requirements of 5G.
As mobile device manufacturers pack more frequency bands in newer generations of smartphones, the company's 3D IC solution for RFSOI addresses the challenge of integrating more RF front-end modules (RF-FEM) - critical components in devices to transmit and receive data - in a device by vertically stacking dies to reduce surface area. RFSOI is the foundry process used for RF chips such as low noise amplifiers, switches, and antenna tuners. Utilizing wafer-to-wafer bonding technology, UMC's 3D IC solution for RFSOI resolves the common issue of RF interference between stacked dies. The company has received multiple patents for this process, which is now ready for production.
"We are proud to lead the industry in offering this state-of-the-art solution utilizing our innovative 3D IC technology for RF-FEM. This groundbreaking technology not only solves the challenges of increased frequency band demands in smartphones in the 5G/6G era, but also helps in mobile, IoT, and virtual reality devices with faster data transfer by accommodating more frequency bands in parallel," said Raj Verma, Associate Vice President of Technology Development at UMC. "We are excited to continue developing stacked die solutions to meet our customers' RF needs, such as for 5G millimeter-wave, in the future."
UMC offers the most comprehensive RF front-end module IC solutions in the industry, catering to a broad range of applications including mobile, Wi-Fi, automotive, IoT, and satellite communications. With over 500 product tape-outs completed and more than 38 billion RFSOI chips shipped, UMC's family of RFSOI solutions are available in 8-inch and 12-inch wafers, as well as in a variety of technology nodes from 130 nm to 40 nm. In addition to RFSOI technologies, UMC's 6-inch fab (Wavetek Microelectronics Corporation) offers compound semiconductor technologies gallium arsenide (GaAs) and gallium nitride (GaN) as well as RF filters to supplement the needs of RF-FEM applications.
View at TechPowerUp Main Site | Source
As mobile device manufacturers pack more frequency bands in newer generations of smartphones, the company's 3D IC solution for RFSOI addresses the challenge of integrating more RF front-end modules (RF-FEM) - critical components in devices to transmit and receive data - in a device by vertically stacking dies to reduce surface area. RFSOI is the foundry process used for RF chips such as low noise amplifiers, switches, and antenna tuners. Utilizing wafer-to-wafer bonding technology, UMC's 3D IC solution for RFSOI resolves the common issue of RF interference between stacked dies. The company has received multiple patents for this process, which is now ready for production.
"We are proud to lead the industry in offering this state-of-the-art solution utilizing our innovative 3D IC technology for RF-FEM. This groundbreaking technology not only solves the challenges of increased frequency band demands in smartphones in the 5G/6G era, but also helps in mobile, IoT, and virtual reality devices with faster data transfer by accommodating more frequency bands in parallel," said Raj Verma, Associate Vice President of Technology Development at UMC. "We are excited to continue developing stacked die solutions to meet our customers' RF needs, such as for 5G millimeter-wave, in the future."
UMC offers the most comprehensive RF front-end module IC solutions in the industry, catering to a broad range of applications including mobile, Wi-Fi, automotive, IoT, and satellite communications. With over 500 product tape-outs completed and more than 38 billion RFSOI chips shipped, UMC's family of RFSOI solutions are available in 8-inch and 12-inch wafers, as well as in a variety of technology nodes from 130 nm to 40 nm. In addition to RFSOI technologies, UMC's 6-inch fab (Wavetek Microelectronics Corporation) offers compound semiconductor technologies gallium arsenide (GaAs) and gallium nitride (GaN) as well as RF filters to supplement the needs of RF-FEM applications.
View at TechPowerUp Main Site | Source