Digital RF Power - Time-Domain-RF-Power Signal Generation

HORIZON.1.1HORIZON-ERC-SYGID: 101224664
EC Contribution
€99,935
Consortium Size
3 orgs
Start Year
2026
Summary

Wireless communications has made fantastic progress. Yet, the gravest concern is the relentless exponential increase in energyconsumption of next-generation networks that adopt massive multi-input/multi-output (mMIMO) technology (e.g., in 5G/6G).Without any major breakthroughs, these networks will devour a big portion of the global electricity production in 2030. The chiefculprit is the incumbent analog-intensive radio-frequency (RF) transmitter (TX) architecture of its front-end part, which invariablysuffers from linearity/efficiency trade-offs and standby currents irrespective of data traffic.DISRUPT aims to bring new materials, devices, and design paradigm shifts by pioneering a revolutionary fully digital time-domainsignal generation delivering high RF power that will finally profit from the (so-far mostly theoretical) 3000x performance advantage ofIII-Nitrides over Silicon.DISRUPTs breakthroughs will be: 1) Novel material and device concepts for the new “digital RF power” paradigm. 2) Merger ofadvanced CMOS with a to-be-developed (gate-)segmented III-N technology. This solution will utilize up to thousands of tiny low-VTIII-N “digital” FET devices configured in switch-bank arrays that are individually controlled at picosecond accuracy by a CMOScontroller through ultra-high-density flip-chip technology. This arrangement allows 3) distributed coherent signal generation,enabling a direct synthesis of nearly perfect high-power wideband TX waveforms with superior amplitude and phase control. As such,4) new efficiency enhancement schemes will be pioneered. 5) Its CMOS-on-GaN nature will lead to seamless inclusion of 6) new:digital signal processing, clock generation, error detection, and artificial intelligence-based error correction, thereby reachingunprecedented system efficiencies.When successful, DISRUPT will enable a 50% reduction in the energy consumption of wireless networks compared to just followingthe expected development innovations.

Consortium (3)