@inproceedings{Bringout2013,
Author = {G. Bringout, H. Wojtczyk, W. Tenner, M. Graeser, M. Grüttner, J. Haegele, R. Duschka, N. Panagiotopoulos, F.M. Vogt, J. Barkhausen and T.M. Buzug},
Title = {A high power driving and selection field coil for an open MPI scanner.},
Year = {(2013).},
Note = {inproceedings},
Booktitle = {<em>2013 3rd International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>},
Doi = {10.1109/IWMPI.2013.6528332},
Keywords = {biomagnetism, biomedical electronics, biomedical equipment, biomedical imaging, Coils, Cooling, Educational institutions, electrical breakdown, epoxy insulators, epoxy plate, glueing, Heating, high power driving, Imaging, inner coil temperature, Litz wires, magnetic particles, open {MPI} scanner, parallel Litz wire, power 5.2 {kW}, selection field coil, size 2 mm, temperature 180 C, temperature sensors, voltage 4 {kV}, voltage 8 {kV}, Wires,Graeser},
Abstract = {Three Litz wires have been used in parallel in order to decrease the layer to layer voltage down to 4 {kV} and the coil voltage down to 8 {kV}. A two millimeter thick epoxy plate has been glued between each layer, in order to prevent any electrical breakdown between the layers. A special epoxy has been used to minimize the inner temperature of the coil, which reached 180°C with a dissipated power of 5.2 {kW}. The use of parallel Litz wire leads to currents having different phase angle in every wire which has to be corrected.}
}

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