Six Sigma Tool Navigator: The Master Guide for Teams
| AKA | Multi-Var Chart |
| Classification | Analyzing/Trending (AT) |
Tool description
A multivariable chart is used to measure time-series data of multiple variables reflecting process capability variance. This chart provides process variable correlation and interaction information that is not usually found when examining traditional control charts one at a time.
Typical application
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To construct an overlay of certain process variables normally recorded on control charts.
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To allow time-series analysis of process variables.
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To identify possible problem causes.
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To contribute to design of experiments (DOE) and statistical process control (SPC) activities.
Problem-solving phase
| → | Select and define problem or opportunity |
| → | Identify and analyze causes or potential change |
| Develop and plan possible solutions or change | |
| Implement and evaluate solution or change | |
| Measure and report solution or change results | |
| Recognize and reward team efforts |
Typically used by
| 1 | Research/statistics |
| Creativity/innovation | |
| 3 | Engineering |
| Project management | |
| 2 | Manufacturing |
| Marketing/sales | |
| Administration/documentation | |
| Servicing/support | |
| 4 | Customer/quality metrics |
| Change management |
befor
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Control Chart
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Data Collection Strategy
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Checksheet
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Checklist
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Standard Deviation
after
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Variance Analysis
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Process Capability Ratios
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Analysis of Variance
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Potential Problem Analysis (PPA)
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Trend Analysis
Notes and key points
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Note that it is difficult plotting process variables along matching time spans. Also, scaling of upper and lower specification limits (USL-LSL) for process variables may be limited to the base variable with the greatest upper and lower deviation from the specification target value.
Step-by-step procedure
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STEP 1 First, acquire the target and upper and lower specifiction values from design engineering, manufacturing, or the quality department.
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STEP 2 Identify two to four related process variables. See example Painting Quality.
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STEP 3 Draw a chart, with the center line labeled spec (target) value and upper and lower horizontal lines designated USL and LSL respectively.
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STEP 4 Designate the x-axis with the proper time scale. The x-axis represents an amount of time for the variable with the longest time span.
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STEP 5 Identify process variables and encode for plotting and analysis purposes.
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STEP 6 Take measurements and plot by connecting data points.
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STEP 7 Date the chart and keep for later reference.
Example of tool application
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