Design and characterization issues in GaN-based light emitting diodes

Abstract

The improvements in efficiency and reliability are essential to realize high performance light emitting diodes (LEDs). Uniform current spreading is very important to enhance both efficiency and reliability simultaneously. 3-dimensional circuit modeling and analysis method was developed in order to figure out influences of current crowding on performances. The method was applied to the top-surface emitting-type LEDs of 320 x 320 μm 2 size. It was found that the current crowding was closely related to the improvements in series resistance, saturation of light output power, leakage current with operational time, and endurance of electrostatic discharge (ESD). Defects due to high ESD stress were observed at current crowding area. In order to suppress the peak electric field and enhance the ESD voltage, the floating metal was inserted near the n-electrode. About 4 times larger ESD voltages were experimentally measured at LEDs with floating metal structure compared to without one. A LED with the lozenge shape is fabricated to enhance light extraction efficiency over conventional design, i.e., rectangular parallel piped chip. A lozenge shaped LED has an additional advantage of easy chip making since it has natural crystallographic cleavage planes. About 11% larger light extraction efficiency was experimentally obtained in the lozenge shaped LEDs than conventional rectangular chips.