Quartz crystal oscillators for many radio frequency (RF) applications must
provide a high-frequency stability in a wide temperature range. To do this,
a temperature compensation network is commonly included. This study analyz
es and determines the frequency behavior of an oscillator circuit with vari
ations in temperature and shows hom simulation may be employed for the desi
gn of high-stability quartz crystal oscillators, (C) 2001 John Wiley & Sons
, Inc.