Highly accelerated stress test

The highly accelerated stress test (HAST) method was first proposed by Jeffrey E. Gunn, Sushil K. Malik, and Purabi M. Mazumdar of IBM.^[1]

The acceleration factor for elevated humidity is empirically derived to be

${\displaystyle A{F}_{\text{H}}=e^{\text{const}\cdot (R{H}_{\text{s}}^n-R{H}_{\text{o}}^n)},}$

${\displaystyle \text{const}}$ is a value which normally goes from 0.1 to 0.15

where RH_s is the stressed humidity, RH_o is the operating-environment humidity, and n is an empirically derived constant (usually 1 < n < 5).

The acceleration factor for elevated temperature is derived to be

${\displaystyle A{F}_T=e^{(E_{\text{a}}/k)(1/T_{\text{o}}-1/T_{\text{s}})},}$

where E_a is the activation energy for the temperature-induced failure (most often 0.7 eV for electronics), k is the Boltzmann constant, T_o is the operating temperature in kelvins, and T_s is the stressed temperature.

Therefore the total acceleration factor for unbiased HAST testing is

${\displaystyle A{F}_{\text{HAST}}=A{F}_{\text{H}}\cdot A{F}_T=e^{\text{const}\cdot (R{H}_{\text{s}}^n-R{H}_{\text{o}}^n)}{e}^{(E_{\text{a}}/k)(1/T_{\text{o}}-1/T_{\text{s}})}.}$

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