Patent Number: 
Section: claims

1. A digital protection system comprising:a process protection system comprising at least two channels, each of the at least two channels comprising a first bistable logic controller and a second bistable logic controller which is independent and of a different type from the first bistable logic controller, the first bistable logic controller and the second bistable logic controller receiving a process parameter and respectively outputting first and second bistable logic results based on the process parameter, the first bistable logic result comprising one of a first normal signal and a first abnormal signal; anda reactor protection system comprising at least two trains, at least two initiation circuits, and a parallel circuit that includes a plurality of relays connected in parallel,wherein each of the at least two initiation circuits comprises a serial circuit in which a plurality of relays are serially connected,wherein each of the two trains comprises a first coincidence logic controller and a second coincidence logic controller which is independent and of a different type from the first coincidence logic controller, the first coincidence logic controller and the second coincidence logic controller respectively outputting first and second coincidence logic results based on the first and second bistable logic results, the first coincidence logic controller receiving the first bistable logic result from the first bistable logic controller included in each of the at least two channels and outputting the first coincidence logic result based on a count of the first bistable logic result and a count of the first abnormal signal,wherein the plurality of relays included in the serial circuit are switched on or off based on the first and second bistable logic results, and the plurality of relays included in the parallel circuit are switched on or off based on the first and second coincidence logic results, andwherein the first coincidence logic result comprises a first output signal and a second output signal that is different from the first output signal, the first output signal being input to a first relay of the plurality of relays included in the serial circuit, the second output signal being input to a first relay of the plurality of relays included in the parallel circuit. 2. The digital protection system of claim 1, wherein the process protection system comprises a first channel, a second channel, a third channel, and a fourth channel. 3. The digital protection system of claim 1, wherein the reactor protection system comprises a first train and a second train. 4. The digital protection system of claim 1, wherein the process protection system comprises a first bistable logic controller based on a field programmable gate array (FPGA), and a second bistable logic controller based on a programmable logic controller (PLC). 5. The digital protection system of claim 1, wherein each of the first and the second bistable logic controllers transmits the first and second bistable logic results to all coincidence logic controllers that have a same type of a logic structure. 6. The digital protection system of claim 1, wherein the process parameter comprises at least one of temperature information about a high temperature pipe and a low temperature pipe of a reactor coolant, pressurizer pressure information, pressurizer water level information, neutron flux information, reactor coolant flow rate information, containment building pressure information, steam generator water level information, steam pipe pressure information, and refueling water tank water level information. 7. The digital protection system of claim 1,wherein the second coincidence logic controller receives the second bistable logic result comprising one of a second normal signal and a second abnormal signal from the second bistable logic controller included in each of the at least two channels and outputs the second coincidence logic result based on a count of the second bistable logic result and a count of the second abnormal signals, andwherein the second coincidence logic result comprises a third output signal and a fourth output signal that is different from the third output signal, the third output signal being input to a second relay of the plurality of relays included in the serial circuit, the fourth output signal being input to a second relay of the plurality of relays included in the parallel circuit. 8. The digital protection system of claim 7,wherein the first coincidence logic controller outputs the first coincidence logic result in response to the first bistable logic result comprising at least one abnormal signal, the first coincidence logic result being a logic “0” input to the first relay of the plurality of relays included in the serial circuit and being a logic “1” input to the first relay of the plurality of relays included in the parallel circuit, andwherein the second coincidence logic controller outputs the second coincidence logic result in response to the second bistable logic result comprising at least one abnormal signal, the second coincidence logic result being a logic “0” input to the second relay of the plurality of relays included in the serial circuit and being a logic “1” input to the second relay of the plurality of relays included in the parallel circuit. 9. The digital protection system of claim 7,wherein the first coincidence logic controller outputs a coincidence logic result in response to the first and second bistable logic results comprising at least one normal signal, the coincidence logic result being a logic “1” input to the first relay of the plurality of relays included in the serial circuit and being a logic “0” input to the first relay of the plurality of relays included in the parallel circuit, andwherein the second coincidence logic controller outputs a coincidence logic result in response to the first and second bistable logic results comprising at least one normal signal, the coincidence logic result being a logic “1” input to the second relay of the plurality of relays included in the serial circuit and being a logic “0” input to the second relay of the plurality of relays included in the parallel circuit. 10. The digital protection system of claim 1, further comprising an reactor trip switchgear system (RTSS), wherein the RTSS comprises:a first normally open (NO) contact point disposed between a power node and a central node;a second NO contact point disposed between the power node and the central node;a third NO contact point disposed between the central node and a control element drive mechanism (CEDM); anda fourth NO contact point disposed between the central node and the CEDM. 11. The digital protection system of claim 10, wherein when at least one of the first NO contact point and the second NO contact point is in a closed state and at least one of the third NO contact point and the fourth NO contact point is in a closed state, motor-generator set (MG-SET) power is applied to the CEDM. 12. The digital protection system of claim 10, wherein when both of the first NO contact point and the second NO contact point are in opened states and both of the third NO contact point and the fourth NO contact point are in opened states, MG-SET power applied to the CEDM is shut down. 13. The digital protection system of claim 10, wherein at least one of the at least two initiation circuits comprises:a first serial circuit configured to control a conduction state of the first NO contact point according to output signals of the coincidence logic controller;a first parallel circuit configured to control a conduction state of the second NO contact point according to output signals of the coincidence logic controller;a second parallel circuit configured to control a conduction state of the third NO contact point according to output signals of the coincidence logic controller; anda second serial circuit configured to control a conduction state of the fourth NO contact point according to output signals of the coincidence logic controller. 14. The digital protection system of claim 13, wherein the first serial circuit and the first parallel circuit receive output signals from the first coincidence logic controller and the second coincidence logic controller that has a same logic structure as the first coincidence logic controller and included in any one of the at least two trains. 15. The digital protection system of claim 14, wherein the second parallel circuit and second serial circuit receive output signals from the first coincidence logic controller and the second coincidence logic controller that has a same logic structure as the first coincidence logic controller and included another train of the at least two trains. 16. The digital protection system of claim 13, wherein at least one of the at least two initiation circuits comprises:a third circuit that comprises a relay and is configured to switch on or off the relay included in the third circuit to control the conduction state of the second NO contact point; anda fourth circuit that comprises a relay and is configured to switch on or off the relay included in the fourth circuit to control the conduction state of the third NO contact point,wherein the first parallel circuit controls to switch on or off the relay included in the third circuit, and the second parallel circuit controls to switch on or off the relay included in the fourth 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) contact points. 18. The digital protection system of claim 16, whereinthe first serial circuit or the second serial circuit comprises two relays that are serially connected, and the two relays are switched on or off according to output signals of the coincidence logic controller, andwhen all relays are switched on, the first NO contact point or the fourth NO contact point is closed, or when at least one of the two relays is switched off, the first NO contact point or the fourth NO contact point is opened. 19. The digital protection system of claim 16, whereinthe first parallel circuit or the second parallel circuit comprises two relays that are connected in parallel,the two relays are switched on or off according to output signals of the coincidence logic controller, andwhen all relays included in the first parallel circuit or the second parallel circuit are switched off, the relay included in the third circuit or the fourth circuit is switched on, or when at least one of the two relays included in the first parallel circuit or the second parallel circuit is switched on, the relay included in the third circuit or the fourth circuit is switched off.