A fast MOSFET rf switch for low-field NMR and MRI
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Nacher, Pierre-Jean
Kumaragamage, Sashika
Tastevin, Geneviève
Bidinosti, Christopher
Date
2019-11-02Citation
Nacher, Pierre-Jean, Sashika Kumaragamage, Geneviève Tastevin, and Christopher Bidinosti. "A fast MOSFET rf switch for low-field NMR and MRI." Journal of Magnetic Resonance 310 (2019): article no. 106638. DOI: 10.1016/j.jmr.2019.106638.
Abstract
TRansmit Array Spatial Encoding (TRASE) MRI uses trains of rf pulses alternately produced by distinct
transmit coils. Commonly used coil switching involving PIN diodes is too slow for low- and ultra-lowfield
MRI and would introduce wait times between pulses typically as long as each individual pulse in
a few mT. A MOSFET-based rf switch is described and characterised. Up to hundreds of kHz, it allows
for sub-ls switching of rf currents from a single amplifier to several coils with sufficient isolation ratio
and negligible delay between pulses. Additionally, current switching at null current and maximum voltage
can be used to abruptly stop or start pulses in series-tuned rf coils, therefore avoiding the rise and fall
times associated with the Q-factors. RF energy can be efficiently stored in tuning capacitors for times as
long as several seconds. Besides TRASE MRI, this energy storage approach may find applications in fast repeated spin-echo experiments. Here, a threefold acceleration of TRASE phase-encoding is demonstrated when MOSFET switches are used instead of fast reed relays.