TY - GEN
T1 - 8-channel RF head coil of MRI with automatic tuning and matching
AU - Sohn, Sung Min
AU - DelaBarre, Lance
AU - Vaughan, John Thomas
AU - Gopinath, Anand
PY - 2013/12/1
Y1 - 2013/12/1
N2 - The Radio Frequency (RF) coil is an essential part of hardware in Magnetic Resonance Imaging (MRI) systems and microstrip transmission line (TEM) RF coils have been widely used for high-field applications to excite and receive the nuclear magnetic resonance signals. These coils are typically terminated by capacitors. On one end two variable capacitors, the matching capacitor (Cm) and tuning capacitor (Ct), and on the other end a fixed value capacitor (Cf) form a capacitively tuned, matched, and foreshortened half-wave resonator. These resonant coil elements have narrow bandwidth due to their high quality factors (Qs). High transmit power efficiency and receive Signal-to-Noise Ratio (SNR) depend on a well-tuned and matched coil element. Conversely, the variable body loading of these coil elements can adversely impact both tuning and matching, and therefore power efficiency and SNR of transmit/receive signals. Loading effects are problematic and a manual tuning is a time-consuming adjustment. It, however, is the only method to avoid loading problems at present. This study demonstrates the automatic frequency tuning and impedance matching technique for the optimal coil efficiency. An 8-channel RF head coil has been successfully built and tested with a fully automatic tuning and matching function at 7tesla (T). It offers real-time fast operation (less than 550ms per channel) and accurate frequency tuning and impedance matching (less than -20dB in the reflected coefficient, S11, at the Larmor frequency) resulting in the high power efficiency (4% ∼ 21% improvement for each channel).
AB - The Radio Frequency (RF) coil is an essential part of hardware in Magnetic Resonance Imaging (MRI) systems and microstrip transmission line (TEM) RF coils have been widely used for high-field applications to excite and receive the nuclear magnetic resonance signals. These coils are typically terminated by capacitors. On one end two variable capacitors, the matching capacitor (Cm) and tuning capacitor (Ct), and on the other end a fixed value capacitor (Cf) form a capacitively tuned, matched, and foreshortened half-wave resonator. These resonant coil elements have narrow bandwidth due to their high quality factors (Qs). High transmit power efficiency and receive Signal-to-Noise Ratio (SNR) depend on a well-tuned and matched coil element. Conversely, the variable body loading of these coil elements can adversely impact both tuning and matching, and therefore power efficiency and SNR of transmit/receive signals. Loading effects are problematic and a manual tuning is a time-consuming adjustment. It, however, is the only method to avoid loading problems at present. This study demonstrates the automatic frequency tuning and impedance matching technique for the optimal coil efficiency. An 8-channel RF head coil has been successfully built and tested with a fully automatic tuning and matching function at 7tesla (T). It offers real-time fast operation (less than 550ms per channel) and accurate frequency tuning and impedance matching (less than -20dB in the reflected coefficient, S11, at the Larmor frequency) resulting in the high power efficiency (4% ∼ 21% improvement for each channel).
KW - Automatic tuning and matching circuit
KW - Impedance matching network
KW - Magnetic resonance imaging (MRI)
KW - RF coils
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U2 - 10.1109/MWSYM.2013.6697681
DO - 10.1109/MWSYM.2013.6697681
M3 - Conference contribution
AN - SCOPUS:84893287332
SN - 9781467361767
T3 - IEEE MTT-S International Microwave Symposium Digest
BT - 2013 IEEE MTT-S International Microwave Symposium Digest, MTT 2013
T2 - 2013 IEEE MTT-S International Microwave Symposium Digest, MTT 2013
Y2 - 2 June 2013 through 7 June 2013
ER -