Highly accelerated life test

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A highly accelerated life test (HALT), is a stress testing methodology for accelerating product reliability. HALT testing is currently in use by most major manufacturing organizations to improve product reliability in a variety of industries, including electronics, computer, medical and military.

HALT can be effectively used multiple times over a product's life time.[1] During product development, it can find design weakness when changes are much less costly to make. By finding weaknesses and making changes early, HALT can lower product development costs and compress time to market. When HALT is used at the time a product is being introduced into the market, it can expose problems caused by new manufacturing processes. When used after a product has been introduced into the market, HALT can be used to audit product reliability caused by changes in components, manufacturing processes or suppliers etc.

What is HALT?[edit]

Highly accelerated life testing (HALT) techniques are important in uncovering many of the weak links of a new product. These discovery tests rapidly find weaknesses using accelerated stress conditions. The goal of HALT is to proactively find weaknesses and fix them thereby increasing product reliability. Because of its accelerated nature, HALT is typically faster and less expensive than traditional testing techniques.

What is a Typical HALT Procedure?[edit]

Environmental stresses are applied in a HALT procedure,[2] eventually reaching a level significantly beyond that expected during use. The stresses used in HALT are typically hot and cold temperatures, temperature cycles, random vibration, power margining and power cycling.[3] The product under test is in operation during HALT and is continuously monitored for failures. As stress-induced failures occur, the cause should be determined, and if possible, the problem should be repaired so that the test can continue to find other weaknesses.

Test chambers[edit]

A specialized environmental chamber is required for HALT.[4] A suitable chamber also has to be capable of applying pseudo-random vibration with a suitable profile in relation to frequency. The HALT chamber should apply random vibration energy to 10,000 Hz in 6 DOF (degrees of freedom). Sometimes HALT chambers are called repetitive shock chambers because pneumatic air hammers are used to produce vibration. The chamber should also be capable of rapid changes in temperature, 50 degrees C/minute should be considered a minimum rate of change. Usually high power resistive heating elements are used for heating and Liquid Nitrogen (LN2) is used for cooling.


Test fixtures must transmit vibration to the item under test. They must also be open in design or use air circulation to produce rapid temperature change to internal components. Test fixtures can use simple channels to attach the product to the chamber table or more complicated fixtures sometimes are fabricated.

Monitoring and failure analysis[edit]

The equipment under test must be monitored so that if the equipment fails under test, the failure is detected. Monitoring is typically performed with thermocouple sensors, vibration accelerometers, multimeters and data loggers. Common causes of failures during HALT are from weak product design, poor workmanship and poor manufacturing. Failures to individual components such as resistors, capacitors, diodes, printed circuit boards occur because of these issues.[5]

Military application[edit]

HALT is conducted before qualification testing. By catching failures early, flaws are found earlier in the acceptance process, eliminating repetitive later-stage reviews.

See also[edit]


  1. ^ Delserro Engineering Solutions Blog (6 November 2014). "What Is HALT (Highly Accelerated Life Testing) And Why Perform HALT?". Delserro Engineering Solutions. Retrieved 19 November 2014. 
  2. ^ Staff (1998–2012). "What is HALT HASS » Performing HALT". Qualmark. Qualmark Corporation. Archived from the original on March 1, 2012. Retrieved 10 June 2012. 
  3. ^ Delserro Engineering Solutions Blog (6 November 2014). "What Is A Typical HALT Procedure?". Delserro Engineering Solutions. Retrieved 19 November 2014. 
  4. ^ Delserro Engineering Solutions Blog (6 November 2014). "What Equipment Is Used For HALT?". Delserro Engineering Solutions. Retrieved 19 November 2014. 
  5. ^ Delserro Engineering Solutions Blog (6 November 2014). "What Kind Of Failures Occur During HALT?". Delserro Engineering Solutions. Retrieved 19 November 2014. 

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