降低了功耗,提高了发光效率。
The experiments show that the power consumption is lower, luminous efficiency is improved.
使得提高发光装置的发光效率及混光效果。
The luminous efficiency and the lights-mixing effect of the luminous device can be improved.
发光效率受到的影响。
并且该材料的物理化学性能稳定,发光效率较高。
And the materials have the stable physical and chemical properties and high luminous efficiency.
特点:具有发光效率高,寿命长,色光好,体积小巧。
Features: high luminous efficiency, long life, light color, and small features.
异质结器件的发光效率与亮度较单层器件提高1个数量级以上。
The luminescent brightness and efficiency are enhanced at least 1 magnitude order.
彩色PDP的发光效率在很大程度上与工作气体和荧光粉有关。
The luminous efficiency of color PDP is related to the working gases and phosphors in great extent.
并且其发光效率比普通荧光灯提高了30%,约为白炽灯的5倍。
And its luminous efficiency than ordinary fluorescent lamps increased by 30%, about 5 times the incandescent lamp.
研究结果有助于揭示其发光机理,为提高发光效率提供了有益的启示。
It helps to bring to light its luminescent mechanism and to improve light emitting efficiency.
光谱十分接近于太阳光谱,从而使灯的发光效率及显色性大为提高。
Spectrum very close to the solar spectrum, so that the light-emitting efficiency and light color of greatly improved.
有机电致发光器件的电极修饰可以提高器件的发光效率、寿命和稳定性。
The luminescence efficiency, life time and stability of organic electroluminescence devices (OELDs) can be improved significantly by modifying the electrodes of OELDs.
本文主要针对下游LED封装进行研究,阐述LED发光效率提升的方法。
This thesis focuses on downstream package industry to research the method for improving light efficiency of LED.
本发明克服了目前常用的发光材料在色纯度、发光效率等方面存在的问题。
The invention resolves the problems existing in the colorimetric purity, luminescent efficiency, etc. of the currently used luminescent materials.
产品说明:特点:发光效率高、耗电少、寿命长、光线呈金白色、透雾力强。
Specification: high luminous efficiency energy saving longlife golden-white light with the excellent capability to penetrate the fog.
虽然白炽灯的发光效率极限是每瓦52流明,然而这钨丝在其熔点的理论亮度。
While the upper limit for incandescent lamps is 52 lumens per watt, that is the theoretical luminosity of tungsten at its melting point.
另外,使隔墙形成较高的高度,因荧光体涂抹面积的扩大,可以提高发光效率。
In addition, higher height of partition wall enlarges area with phosphor being covered so as to raise luminous efficiency.
实验结果表明,随着正向驱动电流的增加,白光led色温增加,发光效率降低。
The results showed that with the increase in the current drive forward, WLED correlated color temperature (CCT) increases, the luminous efficiency decreases.
与传统封装方法相比,采用荧光粉远离芯片的封装方法可使发光效率提高5%左右。
As compared with traditional packaging method, the coating method with phosphors away from the LED chip can improve the luminous efficiency by more than 5%.
本发明修改了透 明电极的形状,以加宽放电区域,使得发光效率增加以提高亮度。
The present invention modifies the shape of the transparent electrode to broaden the discharge area, so that the luminous efficiency increases to improve a luminance.
发光管受热均匀,从而提高三基色荧光粉的发光效率,因此功率提高5%更加节能。
Equality heat of tube, the light efficiency of tri-color powder was raised so the power 5% higher, more energy-saving.
计算并讨论了离化距离对器件复合效率以及注入和复合对器件电致发光效率的影响。
By simulation, the influence of disassociated distance on recombination efficiency and the influence of injection and recombination on EL efficiencies are thoroughly studied.
在高维持频率下,利用此新的驱动波形可以较传统波形提升百分之二十八的发光效率。
For high sustain frequency, a total of 28 % improvement in luminous efficiency has been achieved by the new waveform while comparing with the conventional sustain waveform.
这种荧光粉制作出的荧光层具有良好的印刷特性,极高的紫外光吸收能力和发光效率。
Fluorescent layer produced by the fluorescent powder has favorable printing characteristic, sky-high ultraviolet light absorbing quality and light-emitting efficiency.
传统射灯多采用卤素灯,发光效率较低、比较耗电、被照射环境温度上升、使用寿命短。
Halogen spotlights to use more traditional, lower light, more power, increased by exposure to ambient temperature, short life.
计算结果表明在单异质结电致发光器件中,可降低器件的电流水平,提高器件的发光效率。
The enhancement of the minority results in the improvement of luminescent efficiency with the reduction of majority injection resulting in the falling of current level.
改变有机层的厚度,比较不同厚度下oled的各项性能的差异,包括工作电压,发光效率。
The characteristics of OLEDs with various thicknesses of organic layer were compared in operating voltage and electroluminescent efficiency.
这样可大幅度提高为提高发光效率设置了反射层10的半导体发光元件100的质量和生产性。
Therefore the quality and productivity of the semiconductor light-emitting device (100) having a reflecting layer (10) for improving the luminous efficiency can be significantly improved.
近年来,氮化镓基led在发光效率上有很大的进展,不过在静电防护上却还有很大的改善空间。
In recent years, there is a large improvement on the luminous efficiency of LEDs. However, there are some problems in LED ESD protection.
作为光源,无论从发光效率、全彩色,还是寿命,都已取得了辉煌的成果,而且还在不断深化之中。
Being the light source, regardless from light the efficiency and whole colors to life have already obtained the glorious result.
作为光源,无论从发光效率、全彩色,还是寿命,都已取得了辉煌的成果,而且还在不断深化之中。
Being the light source, regardless from light the efficiency and whole colors to life have already obtained the glorious result.
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