Title :
A zeroth-order phase-locked loop control algorithm
Author :
Losic, Novica A.
Author_Institution :
Allied-Signal Aerosp., Ont., Canada
Abstract :
A method of minimizing dynamics and reducing phase error toward zero for arbitrary input frequency-phase while maintaining stability in phase-locked loops (PLLs) is presented. The system transfer function becomes theoretically of zero order and the error is zero. Practically, the steady-state phase error is zero and the system is of minimum dynamics/order. The method is in synthesizing a feedforward control that is added to the standard PLL. The feedforward, effected from the system input to a summing junction, comprises an inverse feedforward control principle relative to the part of the feedback loop seen after the summing junction
Keywords :
control system analysis; control system synthesis; feedforward; phase control; phase locked loops; stability; transfer functions; control design; control performance; control simulation; dynamics minimisation; feedforward control synthesis; inverse feedforward control principle; phase error reduction; steady-state phase error; summing junction input; system transfer function; zeroth-order phase-locked loop control algorithm; Control system synthesis; Control systems; Error correction; Frequency conversion; Low pass filters; Phase frequency detector; Phase locked loops; Stability; Steady-state; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
