SPC (Statistical Process Control) charts

📊 1. X̄-R Chart (Mean and Range Chart)

Purpose:

• Monitors process average (X̄) and variability (R) over time.
• Suitable for small subgroup sizes (typically 2–10).

Components:

• X̄ chart: Tracks the mean of each subgroup.
• R chart: Tracks the range (max – min) within each subgroup.

Use Case:

• Ideal for manual measurements or small batch processes.

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📊 2. X̄-S Chart (Mean and Standard Deviation Chart)

Purpose:

• Similar to X̄-R but uses standard deviation (S) instead of range.
• More accurate for larger subgroup sizes (typically >10).

Components:

• X̄ chart: Tracks subgroup means.
• S chart: Tracks subgroup standard deviations.

Use Case:

• Automated measurements or continuous processes with larger data sets.

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📊 3. p-Chart (Proportion Chart)

Purpose:

• Monitors the proportion of defective items in a sample.

Components:

• p = number of defectives / sample size
• Control limits vary with sample size.

Use Case:

• Visual inspection processes, where items are classified as pass/fail.

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📊 4. np-Chart (Number of Defectives Chart)

Purpose:

• Tracks the number of defective items in samples of constant size.

Components:

• Easier to interpret than p-chart when sample size is fixed.

Use Case:

• Assembly line inspections with fixed sample sizes.

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📊 5. c-Chart (Count of Defects Chart)

Purpose:

• Monitors the number of defects per unit (not necessarily defective items).

Components:

• Used when multiple defects can occur on a single item.

Use Case:

• Surface inspections, welds, or printed circuit boards.

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📊 6. u-Chart (Defects per Unit Chart)

Purpose:

• Tracks the average number of defects per unit, useful when sample size varies.

Use Case:

• Variable-sized lots or units with different inspection areas.

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📐 Choosing the Right Chart

Chart Type	Data Type	Subgroup Size	Use Case
X̄-R	Continuous	2–10	Small batch measurements
X̄-S	Continuous	>10	Automated or large samples
p	Attribute	Variable	Proportion of defectives
np	Attribute	Constant	Count of defectives
c	Attribute	Constant	Count of defects
u	Attribute	Variable	Defects per unit

Small interpretation of these carts :

📊 1. X̄-R and X̄-S Charts (for continuous data)

What to look for:

• X̄ chart shows the average of each subgroup.
• R chart (or S chart) shows the variability within each subgroup.

Interpretation:

• In control: All points are within control limits, and no patterns (e.g., trends, cycles).
• Out of control: Points outside limits or patterns like:
  • 7 consecutive points above/below center line
  • 2 out of 3 points near control limits
  • Sudden shifts or trends

Action:

• Investigate special causes (machine issues, operator changes, material variation).
• If only the R chart is out of control, the process variability is unstable.
• If only the X̄ chart is out of control, the process mean is shifting.

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📊 2. p-Chart and np-Chart (for attribute data)

What to look for:

• p-chart tracks proportion of defectives.
• np-chart tracks number of defectives (used when sample size is constant).

Interpretation:

• In control: Proportion or count of defectives stays within limits.
• Out of control: Sudden spikes or drops, or consistent upward/downward trends.

Action:

• Check for changes in inspection criteria, operator performance, or incoming material quality.

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📊 3. c-Chart and u-Chart (for defect counts)

What to look for:

• c-chart: Number of defects per unit (fixed sample size).
• u-chart: Defects per unit (variable sample size).

Interpretation:

• In control: Defect counts fluctuate randomly within limits.
• Out of control: Unusual spikes or consistent increases/decreases.

Action:

• Investigate process steps where defects originate.
• Consider preventive actions or process redesign.

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🔍 General Signs of Trouble Across All Charts

Pattern	Meaning
Point outside control limits	Likely special cause
Run of 7+ points on one side of center line	Process shift
Trend (e.g., 6 points increasing/decreasing)	Gradual drift
Cycles or repeating patterns	External influence (e.g., shift changes)
Sudden jump	Change in process or measurement system

SPC (Statistical Process Control) charts