Patent Number: 044029039
Section: claims

1. In a nuclear reactor electrical control system wherein redundant logic channels are maintained electrically isolated and physically separated with a serial fiber optic light transmissive link between the logic channels, and a plurality of independent reactor condition sensor means are electrically connected to respective electro-optic channel coupling means which are coupled to respective logic channels, which electro-optic channel coupling means includes an electro-optic channel coupling means includes an electro-optical modulatable medium the light transmission characteristic of which is variable in response to reactor condition electrical signals from the respective sensor means, and wherein fiber optic input and output cables connect the channel coupling means to a light input source and a light output detector means from which a reactor control signal is generated in response to predetermined reactor system conditions as indicated by the sensor means, and wherein when all of the plural sensor means generate equal signals of a value indicative of normal reactor operating condition the light transmission to the detector means is maximized, and wherein when the plural sensor means generate unequal signals which result is reduced light transmission to the detector means this is indicative of a possible out of tolerance reactor condition, and wherein when all of the plural sensor means generate an equal signal of a value which is indicative of an out of tolerance reactor condition the light transmission to the detector means is reduced to a value indicating a confirmed by plural sensor means out of tolerance reactor condition. 2. The control system set forth in claim 1, wherein the electro-optic channel coupling means includes an elongated member of electro-optic modulated medium with its light transmission axis aligned along a common optical axis with the fiber optic input and output cables and the fiber optic link between the logic channels, and wherein an input polarizer is aligned along this optical axis at the input end of the elongated member which input polarizer has its polarization axis at a predetermined angle to the light transmission axis of the elongated member, and an output polarizer is aligned along the optical axis at the output end of the elongated member which output polarizer has its polarization axis offset 90 degrees from that of the input polarizer, and wherein the reactor condition electrical signal from the respective sensor means is applied across the respective elongated member orthogonal to the light transmission axis.