DocumentCode :
977610
Title :
Characterization of self-aligned transfer gates for 1µm bubble contiguous-disk devices
Author :
Sanders, I.L. ; Kabelac, W.J. ; Keefe, G.E.
Author_Institution :
IBM Research Laboratory, San Jose, CA
Volume :
16
Issue :
5
fYear :
1980
fDate :
9/1/1980 12:00:00 AM
Firstpage :
943
Lastpage :
945
Abstract :
Self-aligned transfer gates for contiguous disk bubble devices have been characterized at 200kHz. These devices require a single masking level to define both the current control conductors and ion-implantation pattern. Switch operation relies on a unipolar current pulse in the major loop which stripes the bubble between major and minor loops along a bridging charged-wall; directionality is provided by the crystalline symmetry effects in the drive layer. Representative transfer pulse parameters for a 28 Oe (8%) overlapping bias field margin are: (i) transfer-in, amplitude 115 mA ±25%, width 0.1μs ±15% and phase margin 
. (ii) transfer-out, amplitude 160 mA ±9%, width 0.88μs ±10% and phase margin 
. The transfer pulse requirements are discussed in terms of the behaviour of the charged-walls in the garnet drive layer.
. (ii) transfer-out, amplitude 160 mA ±9%, width 0.88μs ±10% and phase margin . The transfer pulse requirements are discussed in terms of the behaviour of the charged-walls in the garnet drive layer.Keywords :
Magnetic bubble devices; Automatic testing; Conductors; Crystallization; Current control; Drives; Garnets; Performance evaluation; Space vector pulse width modulation; Stress; Switches;
fLanguage :
English
Journal_Title :
Magnetics, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9464
Type :
jour
DOI :
10.1109/TMAG.1980.1060866
Filename :
1060866
Link To Document :
