DocumentCode
1041990
Title
Dielectric effects of ferrite flux keepers in thin-film memories
Author
Feltl, Helmut ; Harloff, H. ; Kiszel, Zoltan ; Seefeldner, W.
Author_Institution
Siemens AG, Zentral-Laboratorium, Munich, Germany.
Volume
6
Issue
1
fYear
1970
fDate
3/1/1970 12:00:00 AM
Firstpage
116
Lastpage
121
Abstract
Flexible ferrite keepers may show relatively high dielectric constants ( 
). In a magnetic thin-film memory, both permeability and permittivity are distributed discontinuously. The distribution affects the transmission and coupling properties of the drive lines. A simple model permits separate calculation of inductive and capacitive coupling between two parallel wires above ground. The keeper reduces the inductive and enhances the capacitive part of coupling. It depends on keeper properties and line spacing whether the resulting coupling is increased or decreased. Experiments confirmed the calculated predictions in general. With both wires and striplines, the keeper will increase coupling in most cases of practical interest. A good keeper should have a dielectric constant as low as possible. Among the samples investigated, those containing the Ni-Zn ferrite proved to be most suitable.
). In a magnetic thin-film memory, both permeability and permittivity are distributed discontinuously. The distribution affects the transmission and coupling properties of the drive lines. A simple model permits separate calculation of inductive and capacitive coupling between two parallel wires above ground. The keeper reduces the inductive and enhances the capacitive part of coupling. It depends on keeper properties and line spacing whether the resulting coupling is increased or decreased. Experiments confirmed the calculated predictions in general. With both wires and striplines, the keeper will increase coupling in most cases of practical interest. A good keeper should have a dielectric constant as low as possible. Among the samples investigated, those containing the Ni-Zn ferrite proved to be most suitable.Keywords
Ferrite devices; Magnetic film memories; Couplings; Dielectric thin films; Drives; Ferrites; High-K gate dielectrics; Magnetic films; Permeability; Permittivity; Transmission line discontinuities; Wires;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.1970.1066683
Filename
1066683
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