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dc.contributor.authorMcAlexander, J. C.
dc.contributor.authorCook, S. C.
dc.date.accessioned2016-04-21T16:18:51Zen
dc.date.available2016-04-21T16:18:51Zen
dc.date.issued1966-10en
dc.identifier.issn0884-5123en
dc.identifier.issn0074-9079en
dc.identifier.urihttp://hdl.handle.net/10150/606326en
dc.descriptionInternational Telemetering Conference Proceedings / October 18-20, 1966 / Ambassador Hotel, Los Angeles, Californiaen_US
dc.description.abstractA system to obtain and record impact data at accelerations of 3000 g’s has been designed around a 1024 word, 12 bits per word, piggyback twistor memory. Memory construction and potting techniques were developed to minimize the effect of large acceleration forces. The memory and system tests prove that the memory can withstand shock signatures beyond its original design requirements.
dc.description.sponsorshipInternational Foundation for Telemeteringen
dc.language.isoen_USen
dc.publisherInternational Foundation for Telemeteringen
dc.relation.urlhttp://www.telemetry.org/en
dc.rightsCopyright © International Foundation for Telemeteringen
dc.titleMagnetic Memory Techniques for High Accelerationsen_US
dc.typetexten
dc.typeProceedingsen
dc.contributor.departmentBell Telephone Laboratoriesen
dc.contributor.departmentSandia Corporationen
dc.identifier.journalInternational Telemetering Conference Proceedingsen
dc.description.collectioninformationProceedings from the International Telemetering Conference are made available by the International Foundation for Telemetering and the University of Arizona Libraries. Visit http://www.telemetry.org/index.php/contact-us if you have questions about items in this collection.en
refterms.dateFOA2018-09-11T09:14:44Z
html.description.abstractA system to obtain and record impact data at accelerations of 3000 g’s has been designed around a 1024 word, 12 bits per word, piggyback twistor memory. Memory construction and potting techniques were developed to minimize the effect of large acceleration forces. The memory and system tests prove that the memory can withstand shock signatures beyond its original design requirements.


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