Using Ag Sinter Paste to Improve the Luminous Flux and Reliability of InGaN-Based LED Package for Commercial Vehicle Daytime Running Light

Abstract: We investigated the effect of different types of die attach adhesives on the performance and reliability of InGaN-based LED packages. At 260 °C, the average shear strength was 10.00 and 22.30 MPa for Ag epoxy and Ag sinter paste samples, respectively. LED packages with the Ag sinter paste produced lower thermal resistance than the Ag epoxy paste sample. The Ag epoxy and sinter paste samples gave the thermal resistance (from junction to PCB) of 9.82 and 9.27 K W−1, respectively. The chip temperature of the Ag e… Show more

“…Generally, the solution is to investigate white LEDs constitutive from fundamental colors of blue, red, and green (RGB). A white LED can be made by precoating the phosphor combination of RGB phosphors above a ultraviolet (UV) LED die, or phosphors emit green and red light above a blue-color LED chip [6]- [8]. The favorable RGB phosphors for tricolor close-UV Indium gallium nitride-light-emitting diode (InGaN-LED) chips were Y2O2S:Eu 3+ , ZnS, and BaMgAl10O17Eu2 + [9], [10].…”

The effects of silica-coated Y2O2S:Eu3+ red phosphor on the lighting properties of the light-emitting diode

“…Generally, the solution is to investigate white LEDs constitutive from fundamental colors of blue, red, and green (RGB). A white LED can be made by precoating the phosphor combination of RGB phosphors above a ultraviolet (UV) LED die, or phosphors emit green and red light above a blue-color LED chip [6]- [8]. The favorable RGB phosphors for tricolor close-UV Indium gallium nitride-light-emitting diode (InGaN-LED) chips were Y2O2S:Eu 3+ , ZnS, and BaMgAl10O17Eu2 + [9], [10].…”

The effects of silica-coated Y2O2S:Eu3+ red phosphor on the lighting properties of the light-emitting diode

Low temperature bonding by sintering of Ag nanoparticle paste with the assistance of MOD