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![Page 1: Capability Analysis Webinar.pdf](https://reader031.fdocuments.in/reader031/viewer/2022022417/5870b0291a28ab636a8b6cf4/html5/thumbnails/1.jpg)
Neil W. Polhemus, CTO, StatPoint Technologies, Inc.
Capability Analysis Using
Statgraphics Centurion
Copyright 2011 by StatPoint Technologies, Inc.
Web site: www.statgraphics.com
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Outline
Definition of process capability analysis
Examples
1. Capability analysis for attributes
2. Estimating capability for variable data
3. Capability indices
4. Statistical tolerance limits
5. Multivariate capability analysis
Sample size determination
2
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Capability Analysis
3
Determination based on data of a process’s ability to meet
established specifications.
Specifications may be stated in terms of variables (such as the
tolerance on the diameter of a part) or in terms of attributes
(such as the frequency of customer complaints).
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Capability Measurements
The essential measure of process capability is DPM (defects per
million) or DPMO (defects per million opportunities),
defined as the number of times that a process does not meet
the specifications out of every million possibilities.
DPM may be estimated directly or inferred from statistics such
as a capability index or statistical tolerance limit.
4
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How can we estimate capability
using Statgraphics?
Direct counting of defects
Estimation of DPM from a fitted distribution
Indirect inference about DPM from a capability index
Demonstration of required capability through a statistical
tolerance interval or bound
5
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Example #1 - defects1.sgd
6
Inspected k=30 batches of n=500 items each. Counted
number of defective items.
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Procedure Capability Analysis –
Percent Defective
7
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Output
8
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Conclusions
Best estimate for DPM = 866.7
With 95% confidence, DPM is no greater than 1,377.2
Tolerance limit: 95% of all batches of n=500 items will have
no more than 2 defectives
Equivalent Z = 3.13
9
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Example #2 - resistivity.sgd
10
Measured resistivity of n=100 electronic components
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Procedure Capability Analysis –
Variable Data - Individuals
11
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Selecting Proper Distribution
12
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Capability Plot
13
Largest Extreme ValueMode=203.355Scale=53.9342
Cpk = 0.85Ppk = 0.88
Process Capability for resistivity
USL = 500.0
0 100 200 300 400 500 600
resistivity
0
4
8
12
16
20
24
freq
uen
cy
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Estimate of DPM
14
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Capability Indices
15
6
LSLUSLCP
ˆ3
ˆ,
ˆ3
ˆmin
USLLSLCPK
ˆ
ˆ,
ˆ
ˆmin
USLLSLZ
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Long-term and Short-term
16
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Six Sigma Calculator
17
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Example #3 - bottles.sgd
18
Measured breaking strength of n=100 glass bottles
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Statistical Tolerance Limits
19
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Tolerance Limit Options
20
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Output
21
95-99 LimitsUTL: 285.99LTL: 223.29
Fitted Normal Distribution
mean=254.64, std. dev.=10.6823
200 220 240 260 280 300
strength
0
4
8
12
16
20
24
freq
uen
cy
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Conclusions
22
The StatAdvisor
Assuming that strength comes from a normal distribution, the tolerance
limits state that we can be 95.0% confident that 99.0% of the
distribution lies between 223.295 and 285.985. This interval is
computed by taking the mean of the data +/-2.93431 times the standard
deviation.
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Multivariate Capability Analysis
For multiple variables, determines the probability that ALL
variables meet their established specification limits.
Important when the variables are strongly correlated.
23
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Example #4 - bivariate.sgd
24
Measurements of height and weight of n=150 items.
Specs: height 5 ± 0.3, weight 215 ± 7
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Data Input
25
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Bivariate Normal Distribution
26
Multivariate Capability PlotDPM = 5015.65
4.6 4.74.8 4.9 5 5.1
5.2 5.3 5.4height 205
210
215
220
225
weight
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Capability Ellipse
27
99.73% Capability Ellipse
MCP =0.86
4.6 4.8 5 5.2 5.4
height
205
210
215
220
225
we
igh
t
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Multivariate Capability
28
Multivariate capability indices defined to give same relationship with
DPM as in univariate case.
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Sample Size Determination - Counting
29
Suppose I wish to estimate DPM to within +/-10% with 95% confidence.
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Sample Size Determination – Capability
Indices
30
Requires measuring n = 154 items
Suppose I wish to estimate Cpk to within +/-10% with 95% confidence.
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Sample Size Determination – Statistical
Tolerance Limits
31
Normal Distribution
Mean=250.0, Std. dev.=11.0
190 210 230 250 270 290 310
X
0
0.01
0.02
0.03
0.04
n=20
A 95-99 tolerance interval covering 80% of the distance between
the spec limits requires a sample of n = 20 items in this case.