Title :
Temperature compensated crystal oscillator employing new shape GT cut quartz crystal resonator
Author :
Kawashima, Hirofumi ; Sunaga, Keita
Author_Institution :
Seiko Electron. Components Ltd., Tochigi, Japan
Abstract :
The authors describe a temperature internally compensated crystal oscillator using the novel GT-cut quartz crystal resonator formed by an etching method. The object is to clarify if drain output resistance Rd and resistance Rqs connected in series to the resonator in elements constructing a CMOS oscillator circuit which suppress spurious vibrations, influence oscillation frequency and frequency-temperature behavior. First, a CMOS quartz crystal oscillator circuit is transformed into an equivalent circuit, and an equation which gives oscillation frequencies is derived from Kirchhoff´s law. Second, since the equation is given as a function of Rd and Rqs, it is theoretically predicted and experimentally shown that Rd and R qs influence the oscillation frequency and the frequency-temperature behavior
Keywords :
CMOS integrated circuits; compensation; crystal resonators; equivalent circuits; network analysis; oscillators; quartz; CMOS oscillator circuit; GT cut; crystal oscillator; drain output resistance; equivalent circuit; etching method; frequency-temperature behavior; oscillation frequency; quartz crystal; quartz crystal resonator; temperature compensation; Communication equipment; Communication standards; Consumer products; Equations; Equivalent circuits; Etching; Frequency; Oscillators; Shape; Temperature distribution;
Conference_Titel :
Frequency Control, 1991., Proceedings of the 45th Annual Symposium on
Conference_Location :
Los Angeles, CA
Print_ISBN :
0-87942-658-6
DOI :
10.1109/FREQ.1991.145929
