AND Gate: Difference between revisions
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=System Reliability Example= | =System Reliability Example= | ||
Consider a system with two components, ''A'' and ''B''. The system fails if both | Consider a system with two components, ''A'' and ''B''. The system fails if both ''A'' and ''B'' fail. Then the fault tree diagram is an AND gate (represinting the system level) with two events ''A'' and ''B''. This is shown in the next figure. | ||
[[File:I10.2.gif|center]] | [[File:I10.2.gif|center]] | ||
The reliability equation for either configuration is: | The reliability equation for either configuration is: | ||
Revision as of 00:37, 16 July 2011
This page describes the AND gate and it's applications in Fault Tree diagrams used in Reliability and Safety Engineering.
In an AND gate, the output event occurs if all input events occur (or event A AND event B AND event C). When used in reliability and safety engineering an event is usualy a failure, a failure mode, or other undesirable event.
If one is looking at system reliability with each event represnting a component of the system then this this implies that all components must fail (input) in order for the system to fail (output). When using RBDs, the equivalent is a simple parallel configuration.
System Reliability Example
Consider a system with two components, A and B. The system fails if both A and B fail. Then the fault tree diagram is an AND gate (represinting the system level) with two events A and B. This is shown in the next figure.
The reliability equation for either configuration is:
- [math]\displaystyle{ {{R}_{System}}={{R}_{A}}+{{R}_{B}}-{{R}_{A}}\cdot {{R}_{B}} }[/math]