Preetpal Singh scite author profile

A moisture- electrical – temperature (MET) test is proposed to evaluate the outdoor reliability of high power blue LEDs, with and without phosphor, and to understand the degradation physics of LEDs under the environment of combined humidity, temperature and electrical stresses. The blue LEDs with phosphor will be the high power white LEDs. Scanning acoustic microscopy is used to examine the resulted delamination during this test for the LEDs. The degradation mechanisms of blue LEDs (LEDs without phosphor) and white LEDs (LEDs with phosphor) are found to be different, under both the power on (i.e. with 350 mA through each LED) and power off (i.e. without current supply) conditions. Difference in the coefficient of thermal expansion between the molding part and the lens material as well as the heat generated by the phosphor layer are found to account for the major differences in the degradation mechanisms observed. The findings indicate that the proposed MET test is necessary for the LED industry in evaluating the reliability of LEDs under practical outdoor usage environment.

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Early degradation of high power packaged LEDs under humid conditions and its recovery — Myth of reliability rejuvenation

Singh

Tan

Chang

2016

Microelectronics Reliability

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Uncover the Degradation Science of Silicone Under the Combined Temperature and Humidity Conditions

Singh

Tan

2018

IEEE Access

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Time evolution of packaged LED lamp degradation in outdoor applications

Singh

Tan

2018

Optical Materials

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A review on the humidity reliability of high power white light LEDs

Singh

Tan

2016

Microelectronics Reliability

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Preetpal Singh

Degradation Physics of High Power LEDs in Outdoor Environment and the Role of Phosphor in the degradation process

Early degradation of high power packaged LEDs under humid conditions and its recovery — Myth of reliability rejuvenation

Uncover the Degradation Science of Silicone Under the Combined Temperature and Humidity Conditions

Time evolution of packaged LED lamp degradation in outdoor applications

A review on the humidity reliability of high power white light LEDs

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