Time‐Division Multiplexing for Parallel Transmission at Ultra‐High Field With Limited RF Channels
Felix Glang, Georgiy A. Solomakha, Dario Bosch, Klaus Scheffler, Nikolai I. Avdievich

TL;DR
This paper explores using time-division multiplexing to improve MRI performance with fewer RF channels, achieving better brain image quality in ultra-high field systems.
Contribution
The study introduces a fast RF switch and SAR-aware pulse design for time-division multiplexing in parallel transmission.
Findings
Multiplexing achieves similar excitation fidelity with 8 RF channels as 16 channels.
Flip angle inhomogeneity is reduced by 2.22-fold compared to single-row excitation.
SAR increase from multiplexing can be managed with appropriate pulse design.
Abstract
Investigating time‐division multiplexing for parallel transmission in ultra high‐field imaging, striving for homogeneous whole brain excitation with a limited number of RF channels. A fast RF switch was built to alternately route 8 transmit channels to each row of a double‐row 16‐element transmit coil array at a 9.4 T human MRI system. Methods for SAR monitoring and pulse design for this temporal degree of freedom were developed and investigated in electromagnetic simulations and in vivo measurements, employing parallel transmission kT points pulses aiming for homogeneous whole‐brain excitation. The achievable trade‐off between local SAR and excitation homogeneity was compared for multiplexed and simultaneous transmission. Using time‐division multiplexing, similar excitation fidelity as with 16 transmit channels can be achieved with only 8 channels. For instance, multiplexing reduces…
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Taxonomy
TopicsWireless Power Transfer Systems · Energy Harvesting in Wireless Networks · Full-Duplex Wireless Communications
