2014
DOI: 10.1364/oe.22.00a601
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A novel integrated structure of thin film GaN LED with ultra-low thermal resistance

Abstract: This study proposes a novel packaging structure for vertical thin-GaN LED applications by integration of LED chip and silicon-based packaging process. The vertical thin film LED is directly mounted on package submount. The shortest thermal path structure from junction to package submount achieves the lowest thermal resistance of 1.65 K/W for LED package. Experimental results indicate that low thermal resistance significant improved forward current up to 4.6A with 1.125 × 1.125 mm² LED chip size.

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Cited by 12 publications
(11 citation statements)
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“…The thermal resistance are related with heat conduction path from the LED junction to die attach and then to the PI substrate [23]. Determination for the thermal resistance (R th ) of LED chip can be calculated by using the equation of R th = ΔT/(P e -P op ) [24]. The common thermal resistance of conventional face-up LED with direct eutectic bonding is 5~10 K/W [24].…”
Section: Measurement and Analysismentioning
confidence: 99%
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“…The thermal resistance are related with heat conduction path from the LED junction to die attach and then to the PI substrate [23]. Determination for the thermal resistance (R th ) of LED chip can be calculated by using the equation of R th = ΔT/(P e -P op ) [24]. The common thermal resistance of conventional face-up LED with direct eutectic bonding is 5~10 K/W [24].…”
Section: Measurement and Analysismentioning
confidence: 99%
“…Determination for the thermal resistance (R th ) of LED chip can be calculated by using the equation of R th = ΔT/(P e -P op ) [24]. The common thermal resistance of conventional face-up LED with direct eutectic bonding is 5~10 K/W [24]. In our design, the flexible white LED array was equipped with a copper heat spreader to gain better thermal resistance performance.…”
Section: Measurement and Analysismentioning
confidence: 99%
“…The choice of In-Au eutectic system here was due to the low stress in the In bumps at low temperatures (−25 °C to −20 °C), at which the detectors were operated. Also, eutectic bonding was implemented in packaging of GaN LED chips on Si substrates to enhance thermal dissipation [128], in vertical LEDs [129,130], in the development of high-power laser chips [131], as well as in the packaging of thermal imaging sensors [132] and micromirror arrays [133].…”
Section: Eutectic Bondingmentioning
confidence: 99%
“…Effective system-level heat dissipation is vital, especially in relation to the miniaturization of the package size, and therefore, highly sophisticated yet cost-effective thermal management system is crucially needed, in particular the solid-state lighting technology such as light-emitting diodes (LEDs). Over the past few decades, LEDs have been vastly used as replacement of conventional lighting in various applications such as street lighting, advertisement, backlighting display, automotive and residential lighting (Wen et al , 2014; Park et al , 2006; Tseng et al , 2015). Unique characteristics of LEDs such as long lifetime, environment-friendly, high brightness and low power consumption have drawn the attention of multiple lighting industries, and it is also stated that the solid-state lighting industry will achieve overall annual growth rate of 12 per cent throughout 2017 (Hwang et al , 2007; Sagimori and Muto, 2010; Liul et al , 2013; http://ledsmagazine.com/features/10/3/4).…”
Section: Introductionmentioning
confidence: 99%