【摘 要】
:
By using a blue light source converted by phosphors to obtain white light emission,phosphor-converted white light emitting diodes (pc-white LEDs) are becoming as one of substitutes of traditional gene
【机 构】
:
College of Mechanical and Electrical Engineering,Hohai University,Changzhou,China;State Key Laborato
论文部分内容阅读
By using a blue light source converted by phosphors to obtain white light emission,phosphor-converted white light emitting diodes (pc-white LEDs) are becoming as one of substitutes of traditional general lighting sources due to their advantages in energy saving,environment-friendliness,color controllability and long lifetime.Within pc-white LEDs,the phosphor films consisting of inorganic phosphor powders and silicone have a great effect on the luminous efficacy,color stability and color rendering properties of the LEDs.Additionally,as being close to LED chips,the phosphor film always suffers a high temperature when the LED operates.Thus,the photoluminescence and thermal effect of phosphor films become the essential research topics to identify the resulting failure mechanisms in LEDs.This study selected five widely used inorganic phosphor powers with Garnets,Silicates,Aluminates and Nitrides bases mixed with silicone to prepare the phosphor films.Then,with a 450nm InGaN blue chip as an excitation source,a thermal-controllable platform was installed in an integrating sphere to measure the thermal transient photoluminescence properties of these above prepared phosphor films.Finally,optical simulations using the LightTools software were conducted to predict the spectral power distributions (SPDs) of the pc-white LEDs with selected phosphors films.The simulated SPDs are in reasonable agreement with those measured from experiments.This implies the proposed simulation method can be a useful tool instead of physical experiments in the phosphor design for pc-white LEDs.
其他文献
To minimize the overall working time of PnP machines,the goal is to minimize the total distance traveled by the moving head,it belongs to combinatorial optimization field,and the sequencing can be mod
In this work,we first proposed an innovation on GaN p-type reflective electrode in flip-chip LEDs (FCLEDs) using a novel method so called electroless silver plating (ESP).In our ESP method,we use chem
This paper focus our attention on the deep considerations for LED package technology.The research includes the following content: (i) the influence of binding force between the chip and substrate,the
We have applied v-pits to serve as current tunneling channels to laterally inject the carriers into two sets of InGaN/GaN MQWs.By properly adjusting the v-pits structure and configuration of two sets
A Si-doped GaN films was,grown on 4H-SiC by MOCVD.It was found that the compressively strained layer of the film can be relaxed and surface structural quality can be improved by increasing the thickne
Efficiency droop remains a significant problem to be overcome if the performance of LEDs for solid state lighting is to be improved.As more cost effective substrates such as silicon wafers are used on
White light emitting diodes (LEDs) have been regarded as the most promising light sources of new lighting technology due to the properties of high efficiency,energy saving,long lifetime and environmen
We showed a detailed thermal simulation of a high power flip-chip packaged LED,simulation results show that the junction temperature of the LED is more sensitive to the adhesive layer material between
The drive to increased electrical currents input to achieve high lumen output for High Brightness Light Emitting Diode (HB LED) has led to a series of thermal problems.Hence,thermal management is a ke
high-power green LEDs in mass-production is reaching a new WPE (wall-plug-efficiency) level of 35%,and this progress results from both band- and strain-engineering in the active multiple-quantum-well