DocumentCode :
2092289
Title :
A non-magnetic low-loss wideband quadrature hybrid for front-end applications in magnetic resonance systems
Author :
Oppelt, R.
Author_Institution :
Siemens AG, Corporate Research and Development, Dept, ZFE BT PE 42 P.O. Box 3220, 91050 Erlangen, Germany Tel. +499131-731922, Fax. +499131-721339 e-mail WSERLS0022@atorerls.zfe.siemens.d
fYear :
1993
fDate :
6-10 Sept. 1993
Firstpage :
603
Lastpage :
605
Abstract :
The quadrature hybrid described below was developed for circular polarizing antennas in magnetic resonance systems. It is based on a 180°/3dB wideband hybrid cascaded with a 90° two-phase network. Due to this combination a quadrature hybrid (90°/3dB) with very little phase and amplitude imbalance (<±1° and <±2.5%, respectively) over a bandwidth of more than two octaves is achieved. Except one semi rigid cable balun, all transformers and inductors are realized on a double layer low-loss PTFE-board in symmetric strip line technique. The hybrid is thus easy to fabricate with high reproducible data. Since ferrite material is strictly avoided 15 kW peak power in close proximity to the strong main field magnet can be handled. Insertion losses in the receiving paths are about 0.15 dB to maintain the original signal to noise ratio of the antenna.
Keywords :
Bandwidth; Ferrites; Impedance matching; Inductors; Magnetic materials; Magnetic resonance; Polarization; Strips; Transformers; Wideband;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Microwave Conference, 1993. 23rd European
Conference_Location :
Madrid, Spain
Type :
conf
DOI :
10.1109/EUMA.1993.336641
Filename :
4136702
Link To Document :
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