Patent Number: 
Section: claims

1. A core monitoring system comprising:a TIP (Traversing Incore Probe) that measures an amount of neutrons in a reactor core;a TIP drive device;a TIP panel;a neutron monitoring panel; anda process computer,the TIP panel including a TIP level processing section that processes a TIP level signal input from the TIP drive device, a TIP position processing section that processes a TIP position signal input from the TIP drive device, a TIP panel time setting section that sets a TIP panel time for synchronizing the TIP level signal and TIP position signal, and a TIP level data storage section that stores synchronized TIP level data,the neutron monitoring panel including a time setting section that sets a neutron monitoring panel time corresponding to a collection time of a plurality of individual LPRM (local power range monitoring) level signals and an APRM (average power range monitor) level signal which averages at least a plurality of the individual LPRM signals,the process computer including:an averaging section that time-averages the plurality of individual LPRM level signals transmitted from the neutron monitoring panel to produce a plurality of time-averaged LPRM level signals and that time-averages the APRM level signal, which APRM level signal varies with time, transmitted from the neutron monitoring panel to produce a time-averaged APRM level signal,a TIP level data database that compares a TIP time attached to the TIP level data transmitted from the TIP panel and a neutron monitoring panel time attached to the time-averaged LPRM level signals and the time-averaged APRM level signal from the averaging section and stores the TIP level data and the time-averaged LPRM level signals and the time-averaged APRM level signal, with the time-averaged LPRM signals and the time-averaged APRM level signal corresponding in time to each other, anda core performance calculating section that calculates core performance based on the data stored in the TIP level data database. 2. The core monitoring system according to claim 1, further comprising a plant data collector/calculator that transmits the plant data added with collection time to the process computer, whereinthe process computer includes a heat balance calculating section that calculates a heat balance based on the data transmitted from the plant data collector/calculator, andthe heat balance calculating section transmits a result of the heat balance calculation performed therein to the core performance calculating section. 3. The core monitoring system according to claim 1, further comprising a control rod position information device that has control rod position data added with the collection time, whereinthe control rod position information device transmits the control rod position data to the heat balance calculating section. 4. The core monitoring system according to claim 2, further comprising a control rod position information device that has control rod position data added with the collection time, whereinthe control rod position information device transmits the control rod position data to the heat balance calculating section.