Title :
PLL FM demodulator performance under Gaussian modulation
Author_Institution :
Lehrstuhl fur Nachrichtentech., Erlangen-Nurnberg Univ., Germany
fDate :
4/1/1998 12:00:00 AM
Abstract :
A widespread test of the phase-locked loop (PLL) FM demodulator under Gaussian modulation is simulated using the Monte Carlo method. Unified noise-free and noise performance analyses of the PLL FM demodulator are presented. Substantial reduction of the modulation limit by the input bandpass filter is reported in the region of the input bandwidth of practical interest. Bessel bandpass filters of order greater than two are shown to compare favorably with Butterworth filters in front of the PLL FM demodulator relative to the intermodulation (IM) distortion. A lower bound on the loop noise bandwidth is found by minimizing the output click rate for given IM distortion specifications. FM threshold of 4 and 7 dB for the root-mean-square (RMS) frequency deviation-to-message bandwidth ratio 0.1 and 1.0, respectively, is reported on the worst-case IM distortion of 45 dB
Keywords :
Gaussian noise; Monte Carlo methods; band-pass filters; demodulators; digital simulation; filtering theory; frequency modulation; intermodulation distortion; phase locked loops; Bessel bandpass filters; Butterworth filters; FM threshold; Gaussian modulation; Monte Carlo method; PLL FM demodulator performance; colored additive Gaussian noise; frequency deviation-to-message bandwidth ratio; input bandpass filter; input bandwidth; intermodulation distortion; loop noise bandwidth; lower bound; modulation limit reduction; noise performance; noise-free performance; output click rate; phase-locked loop; root-mean-square; simulation; Additive white noise; Band pass filters; Bandwidth; Demodulation; Frequency modulation; Gaussian noise; Nonlinear distortion; Performance analysis; Phase locked loops; Signal to noise ratio;
Journal_Title :
Communications, IEEE Transactions on
