CAREER: Radio Frequency Piezoelectric Acoustic Microsystems for Efficient and Adaptive Fro — NSF Award to University of Texas at A
This project responds to the escalating demand for advanced radio-frequency front-end (RFFE) signal processing components in mobile devices, driven by the ever-expanding landscape of wireless connectivity. The imperative to integrate more RFFE elements within the confined space and power constraints of handheld devices
| Award title | CAREER: Radio Frequency Piezoelectric Acoustic Microsystems for Efficient and Adaptive Fro |
|---|---|
| Award ID | 2339731 |
| Awardee | University of Texas at Austin |
| City | AUSTIN |
| State | TX |
| Amount obligated | $540,000 |
| Principal investigator | Ruochen Lu |
| Program | CSCS: Circuits and Systems for |
| Start date | 09/01/2024 |
| Abstract | This project responds to the escalating demand for advanced radio-frequency front-end (RFFE) signal processing components in mobile devices, driven by the ever-expanding landscape of wireless connectivity. The imperative to integrate more RFFE elements within the confined space and power constraints of handheld devices is underscored by the surge in 5G/6G technology, necessitating compact hardware with low power consumption. Our overarching vision is to simplify RFFE complexity and enable superi |
| Source | NSF Awards |
$799/mo
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