Title :
Fault-tolerant analogue filtering based on triplication
Author :
Horrocks, D.H. ; Pearce, G.
Author_Institution :
Sch. of Eng., Univ. of Wales Coll. of Cardiff, UK
Abstract :
Tolerance to a single fault can be achieved by triplicating the system, including the sensor if desired, and including at the output a decision-circuit that is the analogue-circuit equivalent of the majority voting function in digital fault-tolerant systems. This paper shows that a median operation can be used to give fault tolerance. The ability of the system to correct for a single catastrophic fault is established. Also it is demonstrated that the effects of component tolerances on nonfaulty channels can be mitigated. An effect of this method is that small switching nonlinearities can be introduced into the output waveform due to the real time action of the median decision circuit.<>
Keywords :
analogue processing circuits; circuit reliability; decision circuits; median filters; component tolerances; decision-circuit; fault-tolerant analogue filtering; median operation; nonfaulty channels; output waveform; real time action; single catastrophic fault; switching nonlinearities; triplication; Analog processing circuits; Circuit reliability; Median filters;
Conference_Titel :
Digital and Analogue Filters and Filtering Systems, IEE Colloquium on
Conference_Location :
London, UK
