单端注入型LED的光电特性与灰度调制技术研究

Micro-LED拥有出色的亮度、高发光效率、低能耗、高反应速度、超高解析度与色彩饱和度等优势,且具备自发光和感测能力,是一项十分理想的显示技术。传统的直流灰度调控方法不再适用于驱动单端载流子注入结构的交流型LED,本文根据单端注入型LED器件在不同频率、幅度、占空比以及交流驱动模式下的光电特性,提出一种基于人眼视觉特性的相对占空比混合式灰度调制方案。结果表明,正负方波驱动模式下的器件在相同电压和频率下表现出更强的发光亮度,并且器件随着驱动频率的增加,发光亮度逐渐提升。最后,结合人眼视觉特性,验证了发光器件在不同相对占空比、幅度、频率的混合式调制方法下实现了由2个灰度到8个灰度等级的提升,为未来新型发光器件灰度调制提供新思路。

基于能量信息协同调控的LED智能调光技术

针对当前LED照明系统对智能化的迫切需求和对成本的高度敏感,而现有智能化调控方案在成本和可靠性等方面存在不足等问题,提出一种基于电力电子变换器能量信息协同调控的LED智能调光技术。该技术基于电力电子变换器驱动的LED线性调光照明系统,采用四进制差分相移键控(Quaternary differential phase shift keying,QDPSK)对公共直流母线上的开关纹波进行信息调制,从而在不额外增加硬件成本的条件下,实现四进制数字信号的调制、耦合与传输。从通信视角解构了DC/DC变换器的基本工作原理,揭示了LED调光系统中能量信息协同调控的实现方法,并以隧道LED照明系统的智能调光为例,围绕系统结构、通信协议、噪声干扰、通信速率等方面展开了具体分析。最后,搭建试验平台验证了所提方法的可行性。

Design and Simulation of High-power LED Array Packaging

Thermal management is one of the key technologies for high-power Light emitting diode(LED)entering into the general illuminating field.Successful thermal management depends on optimal packaging structure and selected packaging materials.In this paper,the aluminum is employed as a substrate of LED,3×3 array chips are placed on the substrate,heat dissipation performance is simulated using finite element analysis(FEA)software,analyzed are the influences on the temperature of the chip with different convection coefficient,and optical properties are simulated using optical analysis software.The results show that the packaging structure can not only effectually improve the thermal performance of high-power LED array but also increase the light extraction efficiency.

沿黑体辐射线类太阳光LED调光系统调配及优化

为了使发光二极管(LED)光源光谱在可见光波段更接近太阳光光谱,且相关色温实现沿黑体辐射线连续可调,选取不同峰值波长LED芯片及荧光粉,覆盖可见光波段;采用相应LED芯片激发相应荧光粉,获得多个调光光源并记录色点及相对光谱;根据光谱叠加性原理,混合光源色点位于调光光源在CIE 1931色坐标图中围成的区域内。对四色光源混合调光进行了系统的调配优化,基于脉宽调制(PWM)调光模式,使用LED驱动模块控制各调光LED的光通量,实现了光源沿黑体辐射线色温可连续调节。模拟与实测结果显示,在常用照明色温2700~6500 K时,LED光源的一般显色指数大于98,且各特殊显色指数均大于90。光谱特性与太阳光类似,填补了LED白光中青光波段的凹陷,去除了短波长蓝光危害。

Study on High-power LED Heat Dissipation Based on Printed Circuit Board

In order to study the role of printed circuit board(PCB)in high-power LED heat dissipation,a simple model of high-power LED lamp was designed.According to this lamp model,some thermal performances such as thermal resistances of four types of PCB and the changes of LED junction temperature were tested under three different working currents.The obtained results indicate that LED junction temperature can not be lowered significantly with the decreasing thermal resistance of PCB.However,PCB with low thermal resistance can be matched with smaller volume heat sink,so it is hopeful to reduce the size,weight and cost of LED lamp.

基于STM32技术的太阳能LED路灯自动控制系统的设计与应用

传统方法在控制方式上较单一、能源利用效率低下,为解决该问题,设计基于STM32技术的太阳能LED路灯自动控制系统。在硬件上,采用STM32F103C8T6芯片为核心控制模块,结合多传感器模块、电源模块、通信模块等设计系统总体结构;在软件上,基于多传感器数据融合设计系统的人车检测功能,采用模糊控制器设计系统的太阳能LED路灯自动节能控制功能。结果表明,在设计系统的控制下,太阳能LED路灯可有效节能,且路面照度满足道路照明标准。

Fabrication of High-power White LEDs and White Light Uniformity Testing

As the blue and yellow lights are complementary colors, a blue InGaN LED chip is coated hy a yellow phosphor film to generate white light based on luminescence conversion mechanism. The emitted light of a blue LED is used as the primary source for exciting fluorescent material such as cerium doped yttrium aluminum garnet with the formula Y3Al2O12 ： Ce^3＋ （in short： YAG ： Ce^3＋ ）. The matching of the spectrum of the blue LED chips and the YAG ： Ce^3＋ yellow phosphor is studied to improve the conversion efficiency. The packaging methods and manufacturing processes for high power single chip-white LEDs are introduced. The uniformity of the output white light is investigated. Based on the characteristics of the high power white LEDs, some approaches and processes are suggested to improve the light uniformity when they are fabricated. The effectiveness of those approaches on the improvement of LEDs is discussed in detail and some interesting conclusions are also presented.

A Cooling System with a Fan for Thermal Management of High-Power LEDs

To improve the heat dissipation of high-power light-emitting diodes (LEDs), a cooling system with a fan is proposed. In the experiment, the LEDs array of 18 W composed of 6 LEDs of 3 W is used and the room temperature is 26oC. Results show that the temperature of the substrate of LEDs reaches 62oC without the fan, however, it reaches only 32oC when the best cooling condition appears. The temperature of the LEDs decreases by 30oC since the heat produced by LEDs is transferred rapidly by the fan. The experiment demonstrates that the cooling system with the fan has good performance.

关于LED路灯智能控制功能模块标准化的探讨

针对当前市场上大功率LED路灯的单灯控制、调光模式等扩展功能发展多样化,造成研发成本高、维修难度大、对用户专业要求高等现象,提出一条旨在解决这一系列难点堵点的思路,用于规范市场竞争、简化技术门槛。

High recorded color rendering performance of single-structured Ce,Mn:Y_(3)(Al,Sc)_(2)Al_(3)O_(12)phosphor ceramics for high-power white LEDs/LDs

Achieving a high color rendering index(CRI)and luminous stability in single-structured Ce:Y_(3)Al_(5)O_(12)(Ce:YAG)phosphor ceramics(PCs)is crucial for high-power white light-emitting diodes or laser diodes(LEDs/LDs).However,cyan valleys and insufficient amounts of the red component in the Ce:YAG emission spectra significantly limit their real applications.In this work,a series of Ce,Mn:Y_(3)(Al,Sc)_(2)Al_(3)O_(12)(Ce,Mn:YSAG)PCs were fabricated by vacuum sintering,and efficient spectral regulation was realized for full-color lighting.The cyan valley was filled by the blueshifted emission peak of Ce^(3+)via Sc^(3+)doping.The orange‒red emission at approximately 580 nm was effectively supplemented via Mn^(2+)doping.In particular,CRI of Ce,Mn:YSAG increased from 56.4 to 85.8,a 52%increase compared with that of Ce:YAG under high-power LED excitation,and the operating temperature was stable at approximately 50℃for long working time.Moreover,CRI of 80.9 could still be obtained for PC-based white LDs.These results indicated that Ce,Mn:YSAG PC,which has excellent CRI and luminous stability,is an extremely promising color convertor for high-power white LEDs/LDs.

紫外光通信用日盲型LED研究进展

紫外光通信在激光雷达、战术通信、航空航天内部安全通讯和片上集成通信等领域有着重要应用前景。传统的紫外光通信LED光源的调制带宽窄、输出光功率低和制造工艺复杂等缺点限制了它在长距离、高速率通信和片上集成通信领域的广泛应用。实验表明,增加单个器件发光面积可提升光输出功率,但增加的器件电容对带宽提升是不利的,因此紫外光通信LED未来的重要研究方向是提升并优化带宽的同时增加器件的光功率密度。UVC Micro-LED器件有着光提取效率高、时间常数小、载流子寿命短、调制速率快及工作电流密度高等出色性能,因此在通讯领域受到科研界和工业界的广泛青睐。本文总结了紫外LED、特别是UVC MicroLED的相关研究进展,并重点介绍了它们在光通信及其片上集成互联方面的应用。研究发现,对UVC MicroLED及其阵列制备与性能提升加强研究,是未来提升自由空间和片上互联紫外通信系统性能的最佳解决方案之一。

LED Modulation Characteristics in a Visible-Light Communication System

This paper conducts a research on modulation characteristics of blue light-emitting diodes (LEDs) used in a visible-light communication (VLC) system. Through analysis of the modulation characteristics of LEDs with different emitting sizes, we find that there is a similar linear relationship between LED’s 3dB bandwidth and the operation current density. This experiment also shows that high series resistance is one major issue that limits our LED's modulation speed. To further improve the LED bandwidth, the resistance can be reduced by optimizing device layout as well as reducing material bulk resistance. Clearly, this study provides an approach to increase the modulation bandwidth of GaN-based LEDs for VLC systems.

基于LLC谐振变换器的LED混合调光控制策略研究

为实现大功率LED驱动电源宽范围调光,需要解决LLC谐振变换器轻载下增益失调问题。结合恒定频率变占空比非对称脉宽调制(APWM)控制的LLC谐振变换器存在可以降压控制区域的特点,提出分段混合控制新型调光策略。重载时,LLC谐振变换器采用脉冲频率调制(PFM)控制;轻载时,LLC谐振变换器则采用占空比小于0.5的APWM控制。搭建了一台额定输出功率1440 W,输出电压30~48 V的大功率LED驱动电源样机,实验表明样机调光范围宽、调光速度快,轻载时电流纹波小、工作稳定,验证了所提策略的正确有效性。

单级高增益LED驱动电路和融合可见光通信调制的控制策略

针对传统通信射频放大器存在成本高、效率低等问题,提出一种单级AC-DC高增益降压LED驱动电路和融合可见光通信调制的控制策略,满足低压输出的LED照明和可见光通信场合。提出的单级电路由结合开关电容网络的低纹波降压Cuk电路和同步整流Buck电路集成。融合可见光通信调制的控制策略以通信二进制相移键控技术为理论基础,通过调节输出电流平均值控制LED照明水平,利用输出电流纹波相位变化实现数据通信调制。对提出的电路和融合控制策略进行详细分析,进行电路关键参数设计。最后通过计算机仿真验证,并研制一台输入185~265 VRMS、恒流输出1A/25W的实验样机。仿真和实验结果表明,电路获得了较高降压增益,实现了融合LED照明恒流控制和可见光通信调制功能,验证了所提出的电路和融合可见光通信调制控制策略的有效性。

新型便携式多功能LED台灯的设计与实现

提出一款新型便携式多功能LED台灯的设计,采用STM 32单片机控制台灯,通过触摸动作无极调节LED亮度;支持USB与锂电池两种供电方式,达到便携的优势;增加人体感应模块产生语音提示,实现节能与保护眼睛的作用。主要模块有LED升压恒流电路模块、触摸调光模块、电池管理模块等。从测试数据可以看出,输入电压3.5~5.5 V,输出电流稳定在202 mA。采用DC-DC开关电源的结构,使得该台灯的效率较高,在91%左右;且输入电压线性调整率很好,达到0.1%。

UVC LED在轨道车辆空气杀菌消毒中的应用研究

轨道车辆车内空气中的细菌、病毒等通过其通风系统进行扩散和交换,可能造成乘客大面积、跨接触距离交叉感染。为保障乘客的出行安全,文章结合深紫外发光二极管(UVC LED)的特性,设计了一款UVC LED空气消杀模块,采用内置于轨道车辆送风道或回风道的方案,并设计适用于列车车厢内的杀灭试验方法,最后通过仿真和试验对杀灭效果进行分析。结果表明:UVC LED空气消杀模块可有效杀灭常见细菌、病毒等病原体,改善车内空气环境。

利用隧道通风气流提升LED照明模块散热的设计

对流散热在散热过程中发挥着重要作用。隧道通风气流无疑为隧道LED灯具散热提供了强迫对流的作用。基于热传导、对流理论,结合铝型材挤出工艺,通过FloEFD软件模拟优化散热器散热流道设计,充分利用隧道通风气流加速对流换热效率,有效提升散热器散热效果。

一种组合LED驱动电路及其BPSK通信调制策略研究

基于升压Boost电路和改进同步整流降压Cuk电路相结合,提出一种用于可见光通信的DC/DC组合LED驱动电路。开关频率较低的升压Boost电路处理大部分功率(LED照明功率),获得高转换效率;开关频率较高的改进同步整流降压Cuk电路调制通信信号,获得高通信性能。详细分析所提电路的工作原理和工作过程,设计采用了一种二进制相移键控调制策略。最后,经计算机仿真分析和实验,验证了所提组合电路以及BPSK通信调制策略的可行性与有效性。

我国LED照明工程技术与发展策略研究

本文阐述了LED照明技术的发展历程,对在我国推广LED照明提出了三基色照明技术路线,提出与三基色照明配套的采用脉宽调制技术的驱动模块,可大大减少功耗、增强三基色LED灯的实用性。蓝光LED优势在于PN结温升对光效下降的影响小,提高散热能力可给出数字电位器控制可调直流恒流源电路。我国现有IC设计能力足以满足LED照明工程的需要,LED照明模块电路可分传统电路数字化改造和MCU控制二步走;开发具有自主知识产权的8位MCU是普及LED照明工程的需要。LED照明工程是系统工程,包括封装、散热、半导体材料、工艺等环节。当前应从能够做、效果好的LED散热增光效、驱动模块、灯具等环节改造,解决影响LED光效的实际问题,提高产品集成度和元件模块化。

LED显示图像的非均匀度校正改进方法

针对LED显示屏在拼接过程中会出现显示图像非均匀度过高的问题,基于对现有CCD校正技术的改进,提出了非均匀度校正改进方法——畸变校正法。首先,介绍了现有的基于CCD的非均匀度校正技术,同时,阐述了技术需要改进的原因。以模块拼接的LED显示屏为例,构建了畸变校正模型。该模型根据畸变模块位置和理想模块位置之间的非线性关系,修正LED显示屏各像素点的灰度值,实现非均匀度的校正。按照构造的模型,描述了畸变校正的实现步骤。最后,在一个分辨率为128pixel×128pixel,模块的像素中心间距为7.62mm,一个模块内只有一个像素点的LED显示屏上实现了该方法。实验结果表明,采用这种改进的方法,可以将LED显示图像的非均匀度由采用基于CCD的校正技术校正后的8.9%降低到0.97%。