Reliability Report

AOS Semiconductor
Product Reliability Report
AOE6930,
rev A
Plastic Encapsulated Device
ALPHA & OMEGA Semiconductor, Inc
www.aosmd.com
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This AOS product reliability report summarizes the qualification result for AOE6930. Accelerated
environmental tests are performed on a specific sample size, and then followed by electrical test
at end point. Review of final electrical test result confirms that AOE6930 passes AOS quality and
reliability requirements. The released product will be categorized by the process family and be
routine monitored for continuously improving the product quality.
I. Reliability Stress Test Summary and Results
Test Item
Test Condition
Time Point
Total
Sample
Size
Number
of
Failures
Reference
Standard
HTGB
Temp = 150°C ,
Vgs=100% of Vgsmax
168 / 500 /
1000 hours
385 pcs
0
JESD22-A108
HTRB
Temp = 150°C ,
Vds=100% of Vdsmax
168 / 500 /
1000 hours
385 pcs
0
JESD22-A108
Precondition
(Note A)
168hr 85°C / 85%RH +
3 cycle reflow@260°C
-
924 pcs
0
JESD22-A113
HAST
130°C , 85%RH,
33.3 psia,
Vds = 80% of Vdsmax
96 hours
231 pcs
0
JESD22-A110
Autoclave
121°C , 100%RH
29.7psia
96 hours
231 pcs
0
JESD22-A102
Temperature
Cycle
-65°C to 150°C ,
air to air,
1000 cycles
231 pcs
0
JESD22-A104
HTSL
Temp = 150°C
1000 hours
231 pcs
0
JESD22-A103
Note: The reliability data presents total of available generic data up to the published date.
Note A: MSL (Moisture Sensitivity Level) 1 based on J-STD-020
II. Reliability Evaluation
FIT rate (per billion): 5.72
MTTF = 19946 years
The presentation of FIT rate for the individual product reliability is restricted by the actual burn-in
sample size. Failure Rate Determination is based on JEDEC Standard JESD 85. FIT means one
failure per billion hours.
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Failure Rate = Chi x 10 / [2 (N) (H) (Af)] = 5.72
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MTTF = 10 / FIT = 19946 years
Chi²= Chi Squared Distribution, determined by the number of failures and confidence interval
N = Total Number of units from burn-in tests
H = Duration of burn-in testing
Af = Acceleration Factor from Test to Use Conditions (Ea = 0.7eV and Tuse = 55°C)
Acceleration Factor [Af] = Exp [Ea / k (1/Tj u – 1/Tj s)]
Acceleration Factor ratio list:
55 deg C
70 deg C
85 deg C
100 deg C
115 deg C
Af
259
87
32
13
5.64
Tj s = Stressed junction temperature in degree (Kelvin), K = C+273.16
Tj u =The use junction temperature in degree (Kelvin), K = C+273.16
k = Boltzmann’s constant, 8.617164 X 10-5eV / K
130 deg C
150 deg C
2.59
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