MSA | Measurement System Analysis | Measurement System

MSA-Measurement System Analysis primarily deals with investigating/study the effect of the Measurement System on the measured value.

The measurement system analysis primarily focused on finding the effect of Equipment Variation and Appraiser/Personnel variation.

It is a statistical tool that used to assess whether the measurement system is capable or not.

We test the system to find out numerical values of its statistical properties and compare them to accepted standards.

MSA is one of the important quality tools among the below-mentioned five core tools of the IATF 16949:2016 standard.

• Advanced Product Quality Planning-APQP
• Production Part Approval Process-PPAP
• Failure Mode and Effect Analysis-FMEA
• Measurement System Analysis-MSA
• Statistical Process Control-SPC

Measurement System

Measurement System is defined as the complete process used to obtain measurement.

In other words, a Measurement System is a combination of –

• Operations
• Procedures and methods
• Personnel
• Environment
• Equipment/Gage/Instrument
• Software and
• Assumptions etc.

A measurement system is a process by which we assign a number to a characteristic of a product or service. The first step in assessing a system is to understand this process and determine if it will satisfy our requirements.

MSA Types

1. Variable MSA study – based on the variable data collection e.g. Length, width, dia, etc.
2. Attribute MSA study – based on the attribute data collection e.g. Go and No Go, OK and Not OK

Purpose of MSA:

• To better understand the sources of variation that can influence the result produced by the system.
• To find the equipment variation (within system variation) and appraiser variation (between system variation).
• To Minimize the variation in the measurement system.
• To assess the quality of the measurement system.

MSA Applications:

• To assess(accept/reject/improve) new measuring equipment/measuring process.
• A comparison of one measuring device with another.
• To compare measuring instruments/gage/device before and after repair.

Why MSA is required?

Effectiveness of decisions making process purely based on the quality and accuracy of collected data. The quality of the measured data decreases due to measurement system errors and that leads to poor decision making. MSA here is used to analyze and reduce the measurement system errors and helps in effective decision making.

In other words, the decision to adjust a manufacturing process based on measurement data. If the quality of the measured data will be low then chances of wrong judgment can be made.

During product inspection, an operator or appraiser can accept bad parts as good parts and good parts as bad parts, and that resulting in higher cost, higher rejection, and customer complaints. Therefore, MSA is used to avoid the probability of such mistakes and assure accurate inspection and helps to stop defective part outflow at the customer end.

Measurement Issues

Three fundamental issues need to be addressed in evaluating a measurement system:

1. Adequate discrimination.
2. Statistical stability over time.
3. Statistical properties to be:
   • Consistent over the expected range, and
   • acceptable for process control.

Measurement System Errors

Five categories of measurement system errors/variations are:

• Bias – often referred as “Accuracy”.
• Stability
• Linearity
• Repeatability
• Reproducibility

Repeatability and Reproducibility errors are referred as “Precision”.

Bias, Stability, and Linearity fall under Location Errors.

Repeatability and Reproducibility falls under Width Errors

Measurement System Variation:

The source of variations present in the measurement system are:

• Method – variation due to inspection and testing method.
• Man – inspector/operators skills, and training.
• Machine/Equipment/Tools – Jig/fixtures, gages, measuring and testing equipment used.
• Part to be measured.
• Environment – temperature, and humidity, etc.

 All above-mentioned possible sources of variation must be considered during the Measurement System Analysis study. 

Measurement system analysis activities generally examine the two primary sources of variation, the first is the parts variation and the second is the measurement of those parts i.e. equipment and appraiser variation. The total variation of the measurement system is the sum of these two values.

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