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Title: Fault-tolerant reactor protection system

Abstract

A reactor protection system having four divisions, with quad redundant sensors for each scram parameter providing input to four independent microprocessor-based electronic chassis. Each electronic chassis acquires the scram parameter data from its own sensor, digitizes the information, and then transmits the sensor reading to the other three electronic chassis via optical fibers. To increase system availability and reduce false scrams, the reactor protection system employs two levels of voting on a need for reactor scram. The electronic chassis perform software divisional data processing, vote 2/3 with spare based upon information from all four sensors, and send the divisional scram signals to the hardware logic panel, which performs a 2/4 division vote on whether or not to initiate a reactor scram. Each chassis makes a divisional scram decision based on data from all sensors. Each division performs independently of the others (asynchronous operation). All communications between the divisions are asynchronous. Each chassis substitutes its own spare sensor reading in the 2/3 vote if a sensor reading from one of the other chassis is faulty or missing. Therefore the presence of at least two valid sensor readings in excess of a set point is required before terminating the output to themore » hardware logic of a scram inhibition signal even when one of the four sensors is faulty or when one of the divisions is out of service.

Inventors:
 [1]
+ Show Inventor Affiliations
  1. Cupertino, CA
Issue Date:
Research Org.:
General Electric Co., Boston, MA (United States)
OSTI Identifier:
870905
Patent Number(s):
5621776
Application Number:
08/502411
Assignee:
General Electric Company (San Jose, CA)
Patent Classifications (CPCs):
Y - NEW / CROSS SECTIONAL TECHNOLOGIES Y02 - TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE Y02E - REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
G - PHYSICS G21 - NUCLEAR PHYSICS G21D - NUCLEAR POWER PLANT
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DOE Contract Number:  
AC03-89SF17445
Resource Type:
Patent
Country of Publication:
United States
Language:
English
Subject:
fault-tolerant; reactor; protection; divisions; quad; redundant; sensors; scram; parameter; providing; input; independent; microprocessor-based; electronic; chassis; acquires; data; sensor; digitizes; information; transmits; reading; via; optical; fibers; increase; availability; reduce; false; scrams; employs; levels; voting; perform; software; divisional; processing; vote; spare; based; send; signals; hardware; logic; panel; performs; division; initiate; makes; decision; independently; asynchronous; operation; communications; substitutes; faulty; missing; presence; valid; readings; excess; set; required; terminating; output; inhibition; signal; service; reactor scram; reactor protection; parameter data; scram signal; data processing; optical fibers; optical fiber; electronic chassis; reduce false; microprocessor-based electronic; scram parameter; providing input; quad redundant; redundant sensors; chassis acquires; parameter providing; independent microprocessor-based; via optic; /376/

Citation Formats

Gaubatz, Donald C. Fault-tolerant reactor protection system. United States: N. p., 1997. Web.
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Gaubatz, Donald C. Fault-tolerant reactor protection system. United States.
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Gaubatz, Donald C. Wed . "Fault-tolerant reactor protection system". United States. https://www.osti.gov/servlets/purl/870905.
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@article{osti_870905,
title = {Fault-tolerant reactor protection system},
author = {Gaubatz, Donald C},
abstractNote = {A reactor protection system having four divisions, with quad redundant sensors for each scram parameter providing input to four independent microprocessor-based electronic chassis. Each electronic chassis acquires the scram parameter data from its own sensor, digitizes the information, and then transmits the sensor reading to the other three electronic chassis via optical fibers. To increase system availability and reduce false scrams, the reactor protection system employs two levels of voting on a need for reactor scram. The electronic chassis perform software divisional data processing, vote 2/3 with spare based upon information from all four sensors, and send the divisional scram signals to the hardware logic panel, which performs a 2/4 division vote on whether or not to initiate a reactor scram. Each chassis makes a divisional scram decision based on data from all sensors. Each division performs independently of the others (asynchronous operation). All communications between the divisions are asynchronous. Each chassis substitutes its own spare sensor reading in the 2/3 vote if a sensor reading from one of the other chassis is faulty or missing. Therefore the presence of at least two valid sensor readings in excess of a set point is required before terminating the output to the hardware logic of a scram inhibition signal even when one of the four sensors is faulty or when one of the divisions is out of service.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {1997},
month = {1}
}
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