OPERATION OF 3 mu m BUBBLE SERIAL LOOP DEVICES DESIGNED ON SINGLE LEVEL MASKING.

Kunihiko Asama; Hirochika Nakajima; Kazunari Komenou; Yoshio Satoh; Tsutom Miyashita; Akira Ihaya

OPERATION OF 3 mu m BUBBLE SERIAL LOOP DEVICES DESIGNED ON SINGLE LEVEL MASKING.

Kunihiko Asama^*, Hirochika Nakajima, Kazunari Komenou, Yoshio Satoh, Tsutom Miyashita, Akira Ihaya

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

An all-permalloy single mask level design for a serial loop circuit has been developed and successfully operated using 3 mu m bubbles. The design of individual elements for a single level circuit such as generator, replicator and annihilator which were compatible with half-disk propagation patterns was investigated, and optimization of permalloy and SiO//2 spacer film thickness was achieved. The small capacity tests chips fabricated provided 13-16 oe ″window margins″ with circular drive field ranges of 40 to 50 oe at 100 kHz. The critical stretching pulse phase margin for replication, which was the minimum phase margin for all functions, was found to be 10 degrees. The design and characteristics are discussed including operating margin dependence on frequency and temperature.

Original language	English
Pages (from-to)	312-314
Number of pages	3
Journal	IEEE Trans Magn
Volume	MAG-14
Issue number	5
Publication status	Published - 1978 Sept
Externally published	Yes

ASJC Scopus subject areas

Electrical and Electronic Engineering
Physics and Astronomy (miscellaneous)

Cite this

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title = "OPERATION OF 3 mu m BUBBLE SERIAL LOOP DEVICES DESIGNED ON SINGLE LEVEL MASKING.",

abstract = "An all-permalloy single mask level design for a serial loop circuit has been developed and successfully operated using 3 mu m bubbles. The design of individual elements for a single level circuit such as generator, replicator and annihilator which were compatible with half-disk propagation patterns was investigated, and optimization of permalloy and SiO//2 spacer film thickness was achieved. The small capacity tests chips fabricated provided 13-16 oe ″window margins″ with circular drive field ranges of 40 to 50 oe at 100 kHz. The critical stretching pulse phase margin for replication, which was the minimum phase margin for all functions, was found to be 10 degrees. The design and characteristics are discussed including operating margin dependence on frequency and temperature.",

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AU - Satoh, Yoshio

AU - Miyashita, Tsutom

AU - Ihaya, Akira

PY - 1978/9

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N2 - An all-permalloy single mask level design for a serial loop circuit has been developed and successfully operated using 3 mu m bubbles. The design of individual elements for a single level circuit such as generator, replicator and annihilator which were compatible with half-disk propagation patterns was investigated, and optimization of permalloy and SiO//2 spacer film thickness was achieved. The small capacity tests chips fabricated provided 13-16 oe ″window margins″ with circular drive field ranges of 40 to 50 oe at 100 kHz. The critical stretching pulse phase margin for replication, which was the minimum phase margin for all functions, was found to be 10 degrees. The design and characteristics are discussed including operating margin dependence on frequency and temperature.

AB - An all-permalloy single mask level design for a serial loop circuit has been developed and successfully operated using 3 mu m bubbles. The design of individual elements for a single level circuit such as generator, replicator and annihilator which were compatible with half-disk propagation patterns was investigated, and optimization of permalloy and SiO//2 spacer film thickness was achieved. The small capacity tests chips fabricated provided 13-16 oe ″window margins″ with circular drive field ranges of 40 to 50 oe at 100 kHz. The critical stretching pulse phase margin for replication, which was the minimum phase margin for all functions, was found to be 10 degrees. The design and characteristics are discussed including operating margin dependence on frequency and temperature.

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OPERATION OF 3 mu m BUBBLE SERIAL LOOP DEVICES DESIGNED ON SINGLE LEVEL MASKING.

Abstract

ASJC Scopus subject areas

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