The use of the principle of superposition in measuring and predicting the thermal characteristics of an electronic equipment operated in a space environment
Abstract
The advantages and possible pitfalls of using a generalized method of measuring and, based on these measurements, predicting the transient or steady-state thermal response characteristics of an electronic equipment designed to operate in a space environment are reviewed. The method requires generation of a set of thermal influence coefficients by test measurement in vacuo. A implified thermal mockup isused in this test. Once this data set is measured, temperatures resulting from arbitrary steady-state or time varying power profiles can be economically calculated with the aid of a digital computer.
- Publication:
-
The 11th Space Simulation Conference
- Pub Date:
- 1980
- Bibcode:
- 1980spsi.conf..291G
- Keywords:
-
- Heat Transfer;
- Prediction Analysis Techniques;
- Spacecraft Electronic Equipment;
- Superposition (Mathematics);
- Temperature Measurement;
- Aerospace Environments;
- Computer Programs;
- Influence Coefficient;
- Temperature Distribution;
- Electronics and Electrical Engineering