WIN Semiconductors Corp announces the commercial release of its next-generation integrated mmWave GaAs platform, PQG3-0C. Targeting mmWave front ends, the PQG3-0C technology combines individually optimized E-mode low noise and D-mode power pHEMTs to enable best-in-class PA and LNA performance on the same chip. The E-mode/D-mode pHEMTs have ƒt of 110GHz and 90GHz respectively, and both […]
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50V RF GaN platform targets high-performance, front-end applications
WIN Semiconductors Corp announces the commercial release of a 50V 0.25µm-gate RF gallium nitride (GaN) platform, NP25-20, and targets high-performance front-end applications including radio access networks, satellite communications, electronic warfare, and radar systems. The NP25-20 technology supports full MMICs enabling WIN customers to design compact, linear, or saturated high-power amplifiers, rugged low-noise amplifiers, and single-chip […]
Tech platform designed for single chip 5G front ends operating in 24GHz to 45GHz bands
WIN Semiconductors Corp has combined an advanced 100GHz ƒt enhancement-mode pHEMT with monolithic PIN and Schottky diodes to provide best-in-class mmWave performance for all front-end functions. The PIH1-10 platform is designed for single-chip 5G front ends operating in the 24GHz to 45GHz bands. The innovative PIH-10 technology provides a new set of integrated GaAs solutions […]
Integrated GaAs technology enables single-chip GaAs for 5G user equipment, mmWave access networks
WIN Semiconductors Corp has released a high integration mmWave GaAs platform called the PIH1-10. Optimized for 5G front-ends, the PIH1-10 technology combines an advanced 100 GHz ƒt enhancement-mode pHEMT with monolithic PIN and Schottky diodes to provide best in class mmWave performance for all front-end functions. WIN is the first compound semiconductor wafer foundry to […]
So what’s all this compound semiconductor wafer stuff?
David Danzilio from Wind Semiconductor sat down with us to explain some of the basics behind fabricating wafers in the compound semiconductor area. Compound semiconductors have a lot of commercial applications in optoelectronics. Many have a direct bandgap that makes them efficient light emitters. (As a quick review, the band gap is called direct if […]