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OEE Calculator

Measure how effectively a machine or line runs. Enter planned time, downtime, ideal cycle time, and unit counts to get OEE and its three components: availability, performance, and quality.

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min
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OEE
Availability
Performance
Quality

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The three losses

OEE multiplies three rates: Availability (did the machine run when it was scheduled?), Performance (did it run at its ideal speed?), and Quality (were the parts good?). Because they multiply, a line at 90% on each scores only about 73% OEE — which is why world-class is often cited near 85%. Breaking the score into its parts shows where to focus: downtime, speed, or defects.

How it’s calculated

OEE = Availability × Performance × Quality, where availability = run ÷ planned time, performance = ideal output ÷ run time, quality = good ÷ total units.

Results update as you type and are estimates, not professional advice — verify important decisions with a qualified professional.

Worked example

480 planned minutes with 60 down, a 30s ideal cycle and 760 good of 800 units is ~79% OEE (87.5% / 95.2% / 95%).

Common mistakes

  • Comparing OEE without looking at the three components.
  • Setting an ideal cycle time that is too slow.

Where it is used

  • Measuring a line or machine's effectiveness.
  • Finding whether downtime, speed, or quality is the issue.

Frequently asked questions

What's a good OEE?

85% is often cited as world-class for discrete manufacturing; 60% is typical. The components matter more than the headline number.

Why can performance exceed 100%?

Usually a sign the 'ideal' cycle time is set too slow. Update it to the true best-case to keep the metric meaningful.

What is planned production time?

Scheduled run time minus planned stops like breaks. Unplanned downtime is then subtracted to get actual run time.