Patent Number: 041860489
Section: claims

1. In a nuclear reactor system having a first subsystem for monitoring the neutron flux in the core of the nuclear reactor in the intermediate and power operation ranges of the reactor, comprising a plurality of neutron flux detector assemblies, each providing, on a respective output channel, at least one pulsed output signal at a pulse rate corresponding to detected neutron flux, and signal processing means for providing, for each channel, an indication of neutron flux in the intermediate and power operation ranges of the reactor, and having a second subsystem for monitoring the neutron flux in the core of the nuclear reactor in the source range and during the shutdown condition, the improvement wherein said second subsystem comprises summing means responsive to pulsed input signals to provide a pulsed output signal corresponding to the sum of the input pulses thereof at frequencies in the source range and the shutdown condition range, a plurality of coupling means, each connecting a respective one of the output channels to said summing means for providing pulsed signals thereto substantially corresponding to the pulsed output signals provided by the corresponding detector assembly, said coupling means each including isolation means for preventing spurious communication between said summing means and the channels and between each of the channels, and indicating means connected to the output of said summing means to represent the pulse rate of the output pulses of said summing means. 2. A system according to claim 1 wherein said isolation means each include light emitting means responsive to pulsed signals in the corresponding channel to produce a series of light pulses corresponding to the pulsed output of the detector assembly, and photo detector means for converting the light pulses back into electrical pulses, said summing means being connected to said photo detector means to produce an electrical pulsed output signal corresponding to the sum of the applied light pulses. 3. A system according to claim 2 wherein said light emitting means each comprise a light emitting diode. 4. A system according to claim 1 wherein each of said isolation means comprise radio frequency oscillator means responsive to each applied pulse to produce a radio frequency burst, a radio frequency transformer having an input connected to said oscillator means and an output, and converting means connected to said transformer output for converting the radio frequency bursts back into pulses. 5. A system according to claim 1 wherein said summing means comprises means for summing signals separately from at least two groups of said coupling means, said groups comprising a separate channel or channels totaling less than the total number of channels, and wherein said indicating means provide an indication of the pulse rate of the sum of the output signals in each group of said channels as well as in all of said channels. 6. A system according to claim 1 including further summing means responsive to pulsed input signals to provide an output signal corresponding to the sum of the pulses thereof, including a plurality of further coupling means coupling the output signals from all of the channels to said further summing means, said further coupling means each including isolation means for preventing spurious communication between said further summing means and the channels and between each of the channels, and including a further count rate circuit connected to the output of said summing means to provide an output signal representative of the pulse rate of the output pulses of said summing means, whereby a redundant monitoring channel is provided. 7. A system for monitoring the neutron flux in a nuclear reactor, comprising, a plurality of neutron flux detector assemblies, each having a respective output channel on which is provided at least one pulsed output signal at a pulse rate corresponding to detected neutron flux, a plurality of power level monitoring means each connected to the output channel of a respective one of said neutron flux detector assemblies for monitoring the neutron flux at the highest range of operation of the nuclear reactor, a plurality of intermediate range monitoring means each connected to the output channel of a respective one of said neutron flux detector assemblies for monitoring the neutron flux in the reactor at intermediate range operating levels, and shutdown and source range monitoring means for monitoring the neutron flux in the core of the nuclear reactor when the reactor is shut down or starting up, said shutdown and source range monitoring means comprising summing means responsive to pulsed input signals to provide a pulsed output signal corresponding to the sum of the input pulses at frequencies in the shutdown and source ranges, a plurality of coupling means each coupling a respective one of said output channels of said neutron flux detector assemblies to said summing means, said coupling means each including isolation means for preventing spurious communication between said summing means and said output channels, and between each of said channels, and indicating means connected to the output of said summing means to represent the pulse rate of the output pulses of said summing means. 8. A system according to claim 7 wherein each of said neutron flux detector assemblies comprises a plurality of fission chambers, and including a plurality of discriminator means each connected to a respective one of said output channels for summing the pulses from said fission chambers to provide a pulsed output signal therefrom corresponding to the sum of the pulses detected by said fission chambers. 9. A system for monitoring the neutron flux in a nuclear reactor, comprising, a plurality of neutron flux detector assemblies, each having a respective output channel on which is provided a plurality of pulsed output signals at pulse rates corresponding to detected neutron flux, a plurality of power level monitoring means each connected to the output channel of a respective one of said neutron flux detector assemblies for monitoring the neutron flux at the highest power range of operation of the nuclear reactor, a plurality of intermediate range monitoring means each connected to the output channel of a respective one of said neutron flux detector assemblies for monitoring the neutron flux in the reactor in the intermediate power range of operation of the nuclear reactor, and shutdown range monitoring means for monitoring the neutron flux in the core of the nuclear reactor when the reactor is shut down, said shutdown range monitoring means comprising a plurality of first summing means one for each of said channels for providing a pulsed output signal corresponding to the sum of the pulses in the corresponding channel at frequencies in the shutdown range, a plurality of second summing means totaling in number less than the number of said channels and responsive to pulsed input signals to provide an output signal corresponding to the pulse rate of the sum of the pulses of the input signals, a plurality of coupling means each coupling a single one of said first summing means to one of said second summing means, said coupling means each including light emitting means responsive to pulsed signals in the corresponding channel to produce a series of light pulses and photo detector means for converting the light pulses back into electrical pulses, and means for indicating the output signal of each of said second summing means and for indicating the combined output signals thereof.