Manufacturing optimization for improved AT crystal aging: preliminary results

Author

Vittorini, L.D.

Author_Institution

Collins Avionics & Commun. Div., Rockwell Int. Corp., Cedar Rapids, IA

fYear

1996

fDate

5-7 Jun 1996

Firstpage

323

Lastpage

328

Abstract

The military´s focus on affordable “smart weapons” using GPS has put new emphasis on an age old problem: Is it possible to control or bound the aging of oscillators? These new weapons are expected to be in storage for up to 20 years with minimal performance degradation regarding initial acquisition of the GPS signal used for primary navigation. Advances in signal processing are just beginning to help address the frequency drift problem, but jamming and other considerations still make it advantageous to minimize long term aging of the GPS frequency standard. The focus of this study is intended to investigate tailored manufacturing processes to optimise long term storage of any product using GPS such as PGM weapons, at an affordable cost. An equally important consideration is to evaluate how excursions to cold temperatures affect the preaging process and if possible characterize these effects for one distinct manufacturing process

Keywords

Global Positioning System; ageing; crystal oscillators; frequency stability; jamming; military standards; quartz; AT crystal aging; GPS; PGM weapons; SiO₂; cold temperatures; frequency drift problem; frequency standard; jamming; performance degradation; preaging process; primary navigation; smart weapons; tailored manufacturing processes; Aging; Degradation; Frequency; Global Positioning System; Jamming; Manufacturing processes; Navigation; Oscillators; Signal processing; Weapons;

fLanguage

English

Publisher

ieee

Conference_Titel

Frequency Control Symposium, 1996. 50th., Proceedings of the 1996 IEEE International.

Conference_Location

Honolulu, HI

Print_ISBN

0-7803-3309-8

Type

conf

DOI

10.1109/FREQ.1996.559874

Filename

559874