Patent Number: 
Section: claims

1. A full-digital rod position measurement method, comprises:collecting output signals of rod position detectors by a universal signal processor, wherein the output signals comprise voltages of primary coils, currents of the primary coils, voltages of measurement coils, and voltages of auxiliary coils;determining a calculation interval, wherein determining the calculation interval comprises searching, by the universal signal processor, a starting point and an ending point of an avoidance interval that needs to be avoided due to interference of control rod motion in determining the avoidance interval according to the voltages of auxiliary coils,assigning the ending point of the avoidance interval to be a starting point of the calculation interval, and assigning a point located 400 milliseconds behind the ending point of the avoidance interval to be an ending point of the calculation interval,recording an avoidance interval between the starting point of the avoidance interval and the ending point of the avoidance interval, and recording a calculation interval between the ending point of the avoidance interval and the ending point of the calculation interval;for each group of a plurality of groups, calculating, by the universal signal processor, a respective average voltage of the auxiliary coils in the respective group in the calculation interval or a respective average current of the primary coils in the respective group in the calculation interval;for each group of the plurality of groups, calculating, by the universal signal processor, a respective average voltage of the measurement coils in the respective group in the calculation interval;for each group of the plurality of groups, calculating, by the universal signal processor, a respective voltage correction value of the measurement coils in the respective group, wherein the respective voltage correction value is calculated by dividing the respective average voltage of the measurement coils in the respective group by the respective average voltage of the auxiliary coils in the respective group, or dividing the respective average voltage of the measurement coils in the respective group by the respective average current of the primary coils in the respective group; andfor each group of the plurality of groups, comparing, by the universal signal processor, the respective voltage correction value of the measurement coils in the respective group with a preset threshold voltage to form a respective control rod position signal. 2. The full-digital rod position measurement method of claim 1, wherein determining the calculation interval further comprises assigning the calculation interval to be 400 milliseconds when the avoidance interval cannot be searched by the universal signal processor. 3. The full-digital rod position measurement method of claim 1, wherein calculating the respective average voltage of the auxiliary coils in the respective group in the calculation interval or the respective average current of the primary coils in the respective group in the calculation interval comprises using fast Fourier transform or average peak-to-peak value calculation.