Development and implementation of an 84‐channel matrix gradient coil

摘要

Purpose Design, implement, integrate, and characterize a customized coil system that allows for generating spatial encoding magnetic fields (SEMs) in a highly‐flexible fashion. Methods A gradient coil with a high number of individual elements was designed. Dimensions of the coil were chosen to mimic a whole‐body gradient system, scaled down to a head insert. Mechanical shape and wire layout of each element were optimized to increase the local gradient strength while minimizing eddy current effects and simultaneously considering manufacturing constraints. Results Resulting wire layout and mechanical design is presented. A prototype matrix gradient coil with 12 × 7?=?84 elements consisting of two element types was realized and characterized. Measured eddy currents are 1% of the original field. The coil is shown to be capable of creating nonlinear, and linear SEMs. In a DSV of 0.22 m gradient strengths between 24 mT∕m and 78 mT∕m could be realized locally with maximum currents of 150 A. Initial proof‐of‐concept imaging experiments using linear and nonlinear encoding fields are demonstrated. Conclusion A shielded matrix gradient coil setup capable of generating encoding fields in a highly‐flexible manner was designed and implemented. The presented setup is expected to serve as a basis for validating novel imaging techniques that rely on nonlinear spatial encoding fields. Magn Reson Med 79:1181–1191, 2018. ? 2017 International Society for Magnetic Resonance in Medicine.