Dynamic Focusing of Large Arrays for Wireless Power Transfer and beyond

Ali Hajimiri, Behrooz Abiri, Florian Bohn, Matan Gal-Katziri, Mohith H. Manohara

Research output: Contribution to journalArticlepeer-review

36 Scopus citations

Abstract

We present architectures, circuits, and algorithms for dynamic 3-D lensing and focusing of electromagnetic power in radiative near- and far-field regions by arrays that can be arbitrary and nonuniform. They can benefit applications such as wireless power transfer at a distance (WPT-AD), volumetric sensing and imaging, high-throughput communications, and optical phased arrays. Theoretical limits on system performance are calculated. An adaptive algorithm focuses the power at the receiver(s) without prior knowledge of its location(s). It uses orthogonal bases to change the phases of multiple elements simultaneously to enhance the dynamic range. One class of such 2-D orthogonal and pseudo-orthogonal masks is constructed using the Hadamard and pseudo-Hadamard matrices. Generation and recovery units (GU and RU) work collaboratively to focus energy quickly and reliably with no need for factory calibration. Orthogonality enables batch processing in high-latency and low-rate communication settings. Secondary vector-based calculations allow instantaneous refocusing at different locations using element-wise calculations. An emulator enables further evaluation of the system. We demonstrate modular WPT-AD GUs of up to 400 elements utilizing arrays of 65-nm CMOS ICs to focus power on RUs that convert the RF power to dc. Each RFIC synthesizes 16 independently phase-controlled RF outputs around 10 GHz from a common single low-frequency reference. Detailed measurements demonstrate the feasibility and effectiveness of RF lensing techniques presented in this article. More than 2 W of dc power can be recovered through a wireless transfer at distances greater than 1 m. The system can dynamically project power at various angles and at distances greater than 10 m. These developments are another step toward unified wireless power, sensing, and communication solutions in the future.

Original languageEnglish
Article number9270598
Pages (from-to)2077-2101
Number of pages25
JournalIEEE Journal of Solid-State Circuits
Volume56
Issue number7
DOIs
StatePublished - 1 Jul 2021
Externally publishedYes

Keywords

  • Calibration
  • RF lensing
  • dynamic refocusing
  • orthogonal basis
  • phased array
  • power focusing
  • pseudo-Hadamard matrices
  • pseudo-orthogonal bases
  • wireless power transfer
  • wireless power transfer at a distance (WPT-AD)

ASJC Scopus subject areas

  • Electrical and Electronic Engineering

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