Rapid acquisition adaptive zero-crossing DPLL

In the proposed work, an adaptive first order zero-crossing digital phase locked loop (AZC-DPLL) for rapid acquisition, reliable locking, and independent of input signal level is designed, simulated and subsequently implemented on an FPGA based reconfigurable system. The finite state machine controller of the AZC-DPLL senses any changes in input signal frequency and amplitude level, that may cause the loop to loose lock, and accordingly adjusts the loop gain to bring the loop in lock within a few samples. Through this adaptation process, the conflicting requirement of fast acquisition and reliable locking is achieved.

[1]  W.C. Lindsey,et al.  A survey of digital phase-locked loops , 1981, Proceedings of the IEEE.

[2]  B. Cernuschi-Frias,et al.  An extension of the Gill and Gupta discrete phase-locked loop , 1980, Proceedings of the IEEE.

[3]  Saleh R. Al-Araji,et al.  Optimum performance zero crossing digital phase locked loop using multi-sampling technique , 2003, 10th IEEE International Conference on Electronics, Circuits and Systems, 2003. ICECS 2003. Proceedings of the 2003.