Patent Number: 
Section: claims

1. A digital protection system having at least two channels and at least two trains, the system comprising:a reactor trip switchgear system (RTSS) including at least one reactor trip breaker (RTB) for each train to control a supply of power to a control element drive mechanism (CEDM), each RTB disposed between the supply of power and the CDEM;a process protection system having, in one channel, first and second comparative logic controllers of different types that are mutually independent of each other, the first and second comparative logic controllers each receiving process variables as inputs and each outputting comparison logic results;a reactor protection system having, in one train, first and second concurrent logic controllers of different types that are mutually independent from each other, the first and second concurrent controllers each receiving the comparison logic results as inputs and each outputting concurrent logic results, the reactor protection system comprising a first initiation circuit including a first pair of coils and a second initiation circuit including a second pair of coils, each of the first and second initiation circuits further including a series circuit in which a plurality of relays are connected in series and a parallel circuit in which a plurality of relays are connected in parallel,wherein one of the series circuit relays is controlled by receiving one of the concurrent logic results as an input and one of the parallel circuit relays is controlled by receiving the other of the concurrent logic results as an input, andwherein, according to the concurrent logic results, the first initiation circuit transmits a control signal to the RTSS via the first pair of coils and the second initiation circuit transmits a control signal to the RTSS via the second pair of coils. 2. The digital protection system of claim 1, wherein the at least two channels include a first channel, a second channel, a third channel, and a fourth channel. 3. The digital protection system of claim 1, wherein the at least two trains include a first train and a second train. 4. The digital protection system of claim 1, wherein the different types of comparative logic controllers include a field programmable gate array (FPGA) type and a programmable logic controller (PLC) type. 5. The digital protection system of claim 1, wherein the comparative logic controllers each transmit the comparison logic results only to concurrent logic controllers of one type. 6. The digital protection system of claim 1, wherein the process variables include information indicative of at least one of a reactor coolant hot-tube temperature, a reactor coolant cold-tube temperature, a reactor coolant flow rate, a pressurizer pressure, a pressurizer water level, a neutron flux value, a containment building pressure, a steam generator water level, a steam pipe pressure, and a refueling water tank level. 7. The digital protection system of claim 1,wherein the comparison logic results include one of a normal signal and an abnormal signal,wherein the first concurrent logic controller outputs the concurrent logic results based on the number of the comparison logic results and the number of the abnormal signals received from the first comparative logic controllers included in each channel, the outputted concurrent logic results of the first concurrent logic controller including a first output signal being input to one relay included in the series circuit and a second output signal being input to one relay included in the parallel circuit, the first and second output signals having opposite logic values, andwherein the second concurrent logic controller outputs the concurrent logic results based on the number of the comparison logic results and the number of the abnormal signals received from the second comparative logic controllers included in each channel, the outputted concurrent logic results of the second comparative logic controllers including a third output signal being input to one relay included in the series circuit and a fourth output signal being input to one relay included in the parallel circuit, the third and fourth output signals having opposite logic values. 8. The digital protection system of claim 7,wherein the first concurrent logic controller outputs the concurrent logic results when the received comparison logic results includes at least one abnormal signal, by outputting a first logic value to the series circuit and a second logic value to the parallel circuit, andwherein the second concurrent logic controller outputs the concurrent logic results when the received comparison logic results include at least one abnormal signal, by outputting the first logic value to the series circuit and the second logic value to the parallel circuit. 9. The digital protection system of claim 7,wherein the first concurrent logic controller outputs the concurrent logic results when the received comparison logic results includes at least one normal signal, by outputting a first logic value to the series circuit and a second logic value to the parallel circuit, andwherein the second concurrent logic controller outputs the concurrent logic results when the received comparison logic results include at least one normal signal, by outputting the first logic value to the series circuit and the second logic value to the parallel circuit. 10. The digital protection system of claim 1,wherein the supply of power is generated by a motor-generator (MG) set,wherein each RTB of the RTSS includes a normally open (NO) contact, andwherein the NO contacts of the RTBs includefirst and second NO contacts respectively connected between the MG set and a central node, andthird and fourth NO contacts respectively connected between the central node and the CDEM. 11. The digital protection system of claim 10, wherein, when at least one of the first NO contact and the second NO contact is closed and at least one of the third NO contact and the fourth NO contact is closed, power is supplied from the MG set to the CEDM. 12. The digital protection system of claim 10, wherein, when both the first NO contact and the second NO contact are open or both the third NO contact and the fourth NO contact are open, power supplied from the MG set to the CEDM is interrupted. 13. The digital protection system of claim 10,wherein the first initiation circuit further includes:a first series circuit for controlling the first NO contact according to an output signal from the concurrent logic controller; anda first parallel circuit for controlling the second NO contact according to the output signal from the concurrent logic controller, andwherein the second initiation circuit further includes:a second parallel circuit for controlling the third NO contact according to the output signal from the concurrent logic controller; anda second series circuit for controlling the fourth NO contact according to the output signal from the concurrent logic controller. 14. The digital protection system of claim 13, wherein the first series circuit and the first parallel circuit receive the output signals from the first concurrent logic controller and the second concurrent logic controller included in a first train of the at least two trains as inputs. 15. The digital protection system of claim 14, wherein the second series circuit and the second parallel circuit receive the output signals from the first concurrent logic controller and the second concurrent logic controller included in a second train of the at least two trains as inputs. 16. The digital protection system of claim 13,wherein the first initiation circuit further includes a third circuit including a relay for controlling the second NO contact, the relay for controlling the second NO contact being controlled by the first parallel circuit, andwherein the second initiation circuit further includes a fourth circuit including a relay for controlling the third NO contact, the relay for controlling the third NO contact being controlled by the first parallel circuit. 17. The digital protection system of claim 16, wherein the relays included in the third circuit and the fourth circuit are normally closed (NC) contacts. 18. The digital protection system of claim 13,wherein the first series circuit or the second series circuit includes two relays connected in series, the two series relays being respectively turned on/off according to the output signal from the concurrent logic controller, andwherein the first NO contact or the fourth NO contact is closed when the two relays are both on, and the first NO contact or the fourth NO contact is open when at least one of the two relays is off. 19. The digital protection system of claim 16,wherein the first parallel circuit or the second parallel circuit includes two relays connected in parallel, the two parallel relays being turned on/off according to the output signal from the concurrent logic controller,wherein the relay included in the third circuit or the fourth circuit is turned on when the relays included in the first parallel circuit or the second parallel circuit are all off, andwherein the relays included in the third circuit or the fourth circuit are turned off when at least one of the relays included in the first parallel circuit or the second parallel circuit is on. 20. The digital protection system of claim 1,wherein the at least one RTB of the RTSS includes a first pair of RTBs controlled by the first initiation circuit and a second pair of RTBs controlled by the second initiation circuit, andwherein the first pair of RTBs is disposed between the supply of power and a central node of the RTSS, and the second pair of RTBs is disposed between the central node of the RTSS and the CEDM.