This version of the Help is no longer updated. See JMP.com/help for the latest version.

.
Design of Experiments Guide > Accelerated Life Test Designs > Example of Augmenting an Accelerated Life Test Design
Publication date: 07/30/2020

Example of Augmenting an Accelerated Life Test Design

This example shows how to use the Accelerated Life Test Design platform to augment an existing design. In this example, 150 capacitor units are tested across three temperatures (85o, 105o, and 125o Celsius) for 1500 hours. The results are recorded in the Capacitor ALT.jmp sample data table. The resulting model is used to predict the fraction of the population that is failing at 100,000 hours at a normal usage temperature of 25o Celsius.

Review Current Predictions

1. Select Help > Sample Data Library and open Design Experiment/Capacitor ALT.jmp.

2. Click the green triangle to run the Fit Life by X table script.

3. In the Distribution Profiler, found in the Comparisons outline on the Distribution tab, do the following:

Click 105 above Temp and change it to 25.

Click 750.5 above Hours and change it to 100,000.

Figure 22.10 Distribution Profiler for Capacitor Model 

Based on your current study, the predicted fraction of the population that fails at 25o at 100,000 hours is 0.00358, with a 95% confidence interval of 0.00056 to 0.02268. You want to estimate the failure fraction more precisely. To decrease the width of the confidence interval, you can augment your study with additional tests.

Augment the Design

You want to augment your design to obtain more precise estimates of the predicted failure fractions. Your original design used temperature settings of 85, 105, and 125. In your augmented design, you want to test at temperature values of 90, 110, and 125. Note that two of these settings are new. To augment the design with optimally selected runs, follow these steps:

1. Select DOE > Special Purpose > Accelerated Life Test Design.

2. Select Design for one accelerating factor, select Continuous Monitoring, and click Continue.

3. Enter Temp for Factor Name.

4. Enter 5 for Number of Levels.

Even though your augmented runs span only three levels (90, 110, and 125), you must also specify the levels used in the original experiment for a total of five levels. The Factor Transformation is set to Arrhenius Celsius by default.

5. Enter 25 for both Low Usage Condition and High Usage Condition.

6. Enter 85 for the Low Test Condition and 125 for the High Test Condition.

7. Click Continue.

8. Enter 85, 90, 105, 110, and 125 for the Temp Level Values.

There are three levels from the original experiment (85, 105, and 125). The augmented design has two new levels (90 and 110) and one of the levels from the first experiment (125).

Note: All levels must be listed.

9. Ensure that Weibull is selected as the Distribution Choice.

10. Under Prior Mean, select Specify Intercept.Enter the acceleration model parameter estimates from the Fit Life by X Estimates outline, found in the Weibull Results outline on the Statistics tab.

Figure 22.11 Parameter Estimates and Fitted Model from Weibull Results Outline 

Enter -35.200 for Intercept.

Enter 1.389 for Activation Energy (Temp).

This is an estimate of the activation energy and is the coefficient of the inverse temperature, measured in degrees Kelvin, multiplied by Boltzmann’s constant.

Enter 1.305 for scale.

For the Weibull distribution, JMP uses a parameterization that depends on a location parameter μ and scale parameter σ. In terms of the usual α and β parameterization, the scale parameter is σ = 1/β. See Weibull.

In the Accelerated Life Test Plan window, you can specify uncertainty about your prior means in the Prior Variance Matrix outline. In this example, do not make any changes to the Prior Variance Matrix outline. Your design is created assuming that the values specified in the Prior Means outline are the true parameter values.

11. Under Design Choices, enter 1500 for Length of test.

The test is conducted over 1500 hours, which was the length of the original design.

12. Enter 250 for Number of units under test.

The previous experiment tested 150 units, and the augmented experiment tests an additional 100 units, for a total of 250 units.

Figure 22.12 Completed Design Details Window 

13. Click Continue.

14. To account for the units at each setting of Temp from the previous experiment, enter the following under Candidate Runs.

For the Temperatures of 85, 105, and 125, enter Minimum Units of 50 for each.

15. Click the Accelerated Life Test Plan red triangle and select ALT Optimality Criterion > Make Failure Probability Optimal.

For more information about this criterion, see Make Failure Probability Optimal.

16. Click Make Design.

The optimal experimental design appears along with other results.

Figure 22.13 Optimal Design 

The optimal design is computed based on the levels of the test runs, the minimum number of units under test, the total number of units to be tested (this is the information in the Candidate Runs outline), and other information that you specified. The optimal design consists of testing the following number of units at each temperature level:

50 units at 85oC. Since the previous experiment already tested 50 units at 85oC, no additional units are needed.

89 units at 90oC.

50 units at 105oC. Since the previous experiment test 50 units at 105oC, no additional units are needed.

0 units at 110oC. This level is not needed.

61 units at 125oC. Since the previous experiment test 50 units at 125oC, 11 additional units are needed.

Compare the Augmented Design to the Original Study

1. In the Distribution Profiler, enter 25 for Temperature and 100,000 for Time. The estimate of the fraction of the population that is failing is 0.00357, with a 95% confidence interval of 0.00093 to 0.01361. This interval is narrower than the one from the initial experiment, which was from 0.00056 to 0.02268 (Figure 22.10).

Figure 22.14 Distribution Profiler for Temp = 25 and Time = 100000 

Want more information? Have questions? Get answers in the JMP User Community (community.jmp.com).