Title :
Effect of local oscillator phase noise in differentially detected CPFSK
Author :
Jones, A.E. ; Hussain, S. ; Barton, S.K.
Author_Institution :
Motorola CID, Swindon, UK
Abstract :
The effect of oscillator phase noise on differentially detected CPFSK (continuous phase frequency shift keying) is considered. Using a typical oscillator phase noise model, the composite signal-to-noise ratio at the output of the differential detector is derived, Results from a typical microwave source are employed in the calculations and error rate performance indicates that when the channel bandwidth is equal to the transmission rate a modulation index equal to 0.5 is no longer optimum. In fact, when oscillator phase noise is particularly pronounced a modulation index of 0.6 can produce a marked improvement in performance. The results point towards a low cost oscillator implementation which lends itself to a high level of integration
Keywords :
error statistics; frequency shift keying; microwave oscillators; mobile satellite communication; personal communication networks; phase noise; radio receivers; signal detection; channel bandwidth; composite signal-to-noise ratio; continuous phase frequency shift keying; differential detector; differentially detected CPFSK; error rate performance; local oscillator phase noise; microwave source; modulation index; transmission rate;
Conference_Titel :
Evolving Technologies for Small Earth Station Hardware, IEE Colloquium on
Conference_Location :
London
DOI :
10.1049/ic:19950227
