The N-Phase Digital Tanlock Loop for Tracking Suppressed-Carrier N-ary PSK Signals

In this paper, the performance of an -phase digital tanlock loop (DTL) in the presence of phase error disturbance is studied. The phase DTL is a digital loop for tracking suppressed-carrier -ary phaseshift keyed (PSK) signals. It has linear phase characteristics in the modulo- sense as a result of using the function in the phase error detector. We first obtain the probability density function of phase error of the phase detector output and verify it by computer simulation. Then, we consider the optimum bandwidths of the bandpass filters in the loop that yield the minimum variance of the phase error. Also, the finite word length effect on the performance of the -phase DTL is investigated by computer simulation. In addition, the performance of the -phase DTL is compared to that of the digital -phase loop which has sinusoidal phase characteristics. It has been found that the first-order Nphase DTL has wider lock range than the first-order -phase loop in the absence of noise.