Cpk, CPU, and CPL
Measures of potential process capability, calculated with data from
the subgroups in your study. They measure the distance between the process
average and the specification limits, compared to the process spread:
· CPL
measures how close the process mean is running to the lower specification
limit
· CPU
measures how close the process mean is running to the upper specification
limit
· Cpk
equals the lesser of CPU and CPL.
If Cpk, CPU, and CPL are equal, the process is centered at the exact
midpoint of the specification limits. Compare your values to benchmarks
to determine whether to improve your process; many industries use benchmark
values of 1.33. The graphs below illustrate various situations:
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Cpk = CPL = CPU = 2.76 |
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This graph shows an ideal case. The value of all three indices is 2.76,
which indicates that the distance between the process average and the
each specification limit is 2.76 times the one-sided process spread. |
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Cpk = min {CPL = 0.96, CPU = 4.56} = 0.96 |
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When CPL < CPU, the process is not centered. It is more likely to
produce defective units that violate the lower specification limit. |
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Cpk = min {CPL=4.56, CPU = 0.96} = 0.96 |
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When CPL > CPU, the process is not centered. It is more likely to
produce defective units that violate the upper specification limit. |
A disadvantage of the Cpk index is that it only represents one side
of the process curve, and tells you nothing about the other extreme. For
example, the two graphs below display processes with identical Cpk values.
However, one violates both specification limits, and the other only violates
the lower specification limit. To avoid mistakes, consider all indices
along with a graphical summary to draw meaningful conclusions.
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Cpk = CPL = CPU = 0.96 |
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Cpk = min {CPL = 0.96, CPU = 4.56} = 0.96 |
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Note: |
These capability indices are analogous to Ppk, PPL, and
PPU, which assess the same properties using overall process standard deviation
instead of considering subgroups. |