Title :
Adaptive self-adjusted temperature compensated oscillators based on fuzzy-logic algorithms
Author :
Kosykh, Anatoly V. ; Titov, Dmitry A.
Author_Institution :
Omsk State Tech. Univ., Omsk, Russia
Abstract :
In paper results of imitation and natural modeling of process of temperature compensation with use of the microprocessor realizing fuzzy-logic algorithms are adduced. It is shown that usage of designated above principles allows improving essentially temperature stability of oscillator´s frequency in difficult service conditions. The considerable attention is given to algorithms of adjustment, training and adaptation of DTCXO at a stage of their manufacture. Requirements to computing power of the processors, capable to implement the given algorithms are formulated.
Keywords :
adaptive control; compensation; crystal oscillators; fuzzy control; self-adjusting systems; temperature control; voltage-controlled oscillators; DTCXO; adaptive self-adjusted temperature compensated oscillators; fuzzy-logic algorithms; temperature compensation; Algorithm design and analysis; Oscillators; Support vector machine classification; Temperature; Temperature measurement; Temperature sensors; Vectors; DTCXO; temperature compensation. fuzzy logic;
Conference_Titel :
Frequency Control Symposium (FCS), 2014 IEEE International
Conference_Location :
Taipei
DOI :
10.1109/FCS.2014.6859879
