Title :
Fast locking of PLLs using fuzzy scheduled SMC
Author :
Kuzu, Ahmet ; Songuler, Ozgur ; Bogosyan, Seta ; Gokasan, Metin
Author_Institution :
TUBITAK-BILGEM-BTE, Gebze/Kocaeli, Turkey
Abstract :
In this study, a fuzzy tuned SMC based architecture is designed for the control of PLL based frequency synthesizers. The proposed approach, offering a continuous tuning of chattering property, is demonstrated to be more effective over classical, intelligent and traditional sliding mode control methods for the fast locking and low phase noise requirements of PLL based frequency synthesizers in frequency hopping spread spectrum communication and radar applications. The obtained simulation results are compared with those of a PID, a Fuzzy Gain Scheduled Control, a SMC, and traditional FS controller design and it has been concluded that the settling time and the phase noise of the frequency synthesizer can be optimized using the developed fuzzy tuned SMC based PLL.
Keywords :
frequency hop communication; frequency locked loops; frequency synthesizers; fuzzy control; intelligent control; optimisation; phase locked loops; phase noise; scheduling; spread spectrum communication; spread spectrum radar; tuning; variable structure systems; PLL based frequency synthesizer control; continuous chattering property tuning; frequency hopping spread spectrum communication; fuzzy tuned SMC based architecture; intelligent control; locking; optimization; phase lock loop; phase noise; radar applications; sliding mode control; Frequency synthesizers; Mathematical model; Passive filters; Phase frequency detector; Phase locked loops; Time frequency analysis; Voltage-controlled oscillators; PLL locking; frequency synthesizer (FS); fuzzy; gain scheduling; phase noise; settling time; sliding mode;
Conference_Titel :
Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), 2012 4th International Congress on
Conference_Location :
St. Petersburg
Print_ISBN :
978-1-4673-2016-0
DOI :
10.1109/ICUMT.2012.6459671
