oled 中文意思是什麼

oled 解釋
有機發光二極體
  1. The work on the simulation of filter, which was applied to the oled to improve the characteristic of chromatics of emission, was introduced

    有機發光器件的載流子注入、傳輸、復合過程與器件本身的材料、結構、工作電壓密切相關。
  2. In this dissertation, by virtue of self - developed test system, the studies on the optical and electric properties of oled of little molecule with different material, configuration manufactured with different processes have been presented. concepts of chromatics and the mechanism of carrier transportation in the semiconductor device have been applied here to qualitatively analysis and interpret the result of measurement. some interesting conclusions have been given which will be helpful in the further optimization of the performances of oled

    在oled研究過程中,對器件性能的表徵工作起到十分重要的作用,本文利用自主開發的測試平臺(包括軟體、硬體的搭建) ,對不同材料、結構、工藝的小分子oled器件進行了光學、電學性能的測試和評估,並依照色度學、半導體電輸運等理論成功的對測試結果作出了定性分析,揭示了制約器件工作性能的相關因素,為器件性能的進一步優化奠定了基礎、指明了方向。
  3. The research progress of ito conductive glass used for oled

    導電玻璃的研究進展
  4. Under simple development, it could be applied on active - matrix oled directly. finally we design power circuit, through the design of a stable current circuit, we solve the disaffiliate luminance in oled

    另外,還設計了後端的功率電路,通過對恆流源電路的設計很好的解決了顯示屏亮度不均勻的問題。
  5. Indium stannum oxide ( ito ) as semiconductor have caused a great deal of interest due to their prominent electro - optical behavior. ito has high prominent transmittance, high infrared reflectance, good electrical conductivity, ito applied as gas sensors, photovoltaic devices, heat reflecting mirrors, solar cells, flat panel displays, liquid crystal displays, electroluminescent, devices and organic light - emitting diodes ( oled ) etc. although preparations and applications of ito films have been studied deeply. nano - ito composites hardly studied

    氧化銦錫( ito )是一種高簡並的n型半導體,由於具有導電性,可見光高透過率,紅外反射性,穩定的化學性,被廣泛應用於熱反射建築玻璃、抗靜電塗層,太陽能電池,熱發射鏡,平板顯示器和液晶顯示屏,傳感器,有機光致二級管( oled )等方面,國內外對高質量的ito薄膜的制備和應用進行了深入的研究,但是很少有ito納米粒子與高分子材料復合的報道。
  6. We expounded the characteristic between current driving method and voltage driving method, ac driving method and dc driving method, passive driving method and active driving method 。 through theory research we find the dc driving method is also suitable for oled driving 。 an ac - voltage driving circuit is proposed and designed

    通過分析發現, oled不僅適合於電流驅動,對于電壓驅動同樣可以實現其優異的圖像顯示。設計了一種交流電壓驅動電路,利用所設計的電路對oled的交流驅動特性進行了測試和分析,通過實驗研究了直流驅動和交流驅動對oled性能的影響。
  7. The pixel circuit can make oled emit light. continuously, while the peripheral driving circuit is designed to provide correct input signals for amoled, for instance, provide the line - by - line scanning signals for row electrode of oled matrix and the data

    文中還將dvi ( digitalvisualinterface )介面引入和應用於外圍驅動系統當中,使視頻顯示電路同有源oled外圍驅動電路相接合,為amoled顯示屏提供了一個簡單實用的測試驅動平臺。
  8. Although many achievements have been acquired in oled structure material, production technology, drive methods, oled technology is just at the beginning, oled has given an equal chance for every company and country, and it is very important for our country to develop displaying technology of our own. the research direction of oled is managing to improve the device lifetime, at the same time found a perfect production technological flow and the global standard production mode. it is still a arduous mission that we want to live up to a batch production of oled displays in the future some years. active matrix organic light emitting diode ( am - oled ) adopts a circuit structure based on matrix addressing, and its driving circuit includes pixel driving circuit and peripheral driving circuit

    在文中,首先,分析和研究了有源oled的像素驅動電路,闡述了amoled顯示屏及其周邊驅動電路的結構和原理;其次,提出了qvga解析度的有源oled顯示屏列電極數據引線的分塊( block )方法,確定屏上驅動電路所需要的控制信號之間時序關系和幅值要求;最後,以fpga控制器的設計為核心,對外圍控制ic進行了具體設計,建立控制器電路模塊模型和演算法流程,通過quartus軟體對其內部的各個電路模塊進行綜合設計和模擬,得到了正確的模擬波形,完成了解析度為qvga ( 320 3 240 )的amoled專用驅動電路的設計。
  9. Oled has been attracting much attention in recent years for its superior performance in the aspects of thin and light - weight, active emitting, wide visual angle, high brightness, fast video response time, low power dissipation, high efficiency, potential low cost, flexibleness, greenness, etc. the intrinsic characteristics of oled give visual and form factor advantages over lcd, and oled has been regards as one of the most ideal and potential next - generation display technologies with its excellent characteristic on information display and device fabrication

    它被業界公認為是最具發展前景的下一代顯示技術。本文對有機電致發光顯示器件的發展歷史、發展現狀和趨勢等都做了簡要的概括,研究了oled的器件結構、工作特徵、獲得彩色顯示的方法以及所具有的優缺點,並在此基礎上提出了一種amoled外圍驅動系統的設計方案。本驅動系統可分為屏上驅動電路和外圍控制電路。
  10. The reason to cause this phenomenon is due to the change of electric field in the blue oled to induce the probality of the carrier shifted and the hole - electron recombination zone changed, which was a possible alternative to achieve color display. 3 ) device with the structure of ito / npb / adn : balq3 / alq3 / mg : ag was fabricated. when the balq3 dopant concentration was about 25 mol %, a high performance devcie with luminous efficiency of 1. 0 lm / w, the peak of emission spectrum at 440 nm, the cie coordinate at ( 0. 18, 0. 15 ), and half lifetime of unencapsulated device about 950 hrs was achieved

    導致本現象的原因是由於各有機層電場強度的變化影響了空穴和電子的隧穿幾率,從而導致載流子的復合區域發生改變而發出不同顏色的光; 3 )制備了結構為ito / npb / adn : balq3 / alq3 / mg : ag的藍光oled ,空穴阻擋材料balq3的摻入顯著影響了oled的光電性能,當balq3的摻雜濃度為25mol %時, oled的發光效率為1 . 0lm / w ,發光光譜的峰值為440nm ,色純度為( 0 . 18 , 0 . 15 ) ,未封裝器件的半衰期達到了950小時; 4 )在藍光材料adn中摻雜npb 、 balq3和tbp三種材料時,不僅改善了器件的發光亮度和色純度,而且提高了器件的發光效率和壽命。
  11. We have contrasted several methods on fabrication of passive matrix oled, then we mainly discuss two fabricating methods, one is the precise mask method, the other is the barrier wall method. we find that the barrier wall method to fabricate the passive matrix oled ( pmoled ) has the advantages of high resolution, simple process and no crosstalking problem, so the barrier wall method is the good one to fabricate pmoled. in this paper we adopt the both methods, and we have successfully fabricated the pmoled

    分析和對比了實現無源矩陣有機電致發光顯示器件的幾種方法,著重介紹了採用精密掩模技術和障壁技術等技術方案,來製作和設計無源矩陣有機電致發光顯示器件,其中採用障壁技術方案製作的器件具有解析度高、工藝簡單容易實現、器件的交叉效應少、成本低等許多優點,是一種可行的製作無源矩陣有機電致發光顯示器件的方案。
  12. We had modified the driver of led and realized driving the passive matrix oled of 3232 panel by direct current driving

    在已有的led驅動電路的改進下成功的實現了對3232無源oled矩陣直流驅動下的動態顯示。
  13. Zhao jiamin ( condensed matter physics ) directed by prof. wang lijun the organic electroluminescence ( el ) device with microcavity ( moled ) can take on some new characteristics, such as narrowed spectrum, intensity enhancement, sharply directed emission in space, due to the microcavity effects compared with the common device without cavity ( oled )

    將微腔引入有機電致發光器件中,由於微腔效應的存在,可以獲得多種不同於普通發光器件的發光特性,象譜線窄化,強度增強,發光方向性增強等。
  14. Since they emit light directly, oled displays do not need a backlight

    由於也是自身發光, oled顯示器可以不用背光燈。
  15. Systems : experiences in vacuum system design or assembly, good photo / vacuum line maintenance skills and acquaint with lcd or oled and familiar with automation & plc experiences of system operation

    系統部分?有做過真空系統的設計與集成經驗者?熟悉光刻和真空設備的保養?熟悉lcd和oled和自動& plc以及操作系統。
  16. The basic organic light - emitting device ( oled ) consists of a number of ultra - thin organic layers between two electrodes. under low applied voltage, the recombination of carriers coming from cathode and anode can produce intense light output

    有機電致發光器件( oled )採用有機薄膜作為發光層,能夠在低驅動電壓下,產生強烈的電光效應。
  17. Oled and moled are made with heat evaporation

    論文敘述了用熱蒸發的方法製作oled及moled的過程。
  18. The image source is the hard core of hmd, the r & d of lcos ( liquid crystal on silicon ) and oled ( organic light emitting diode ) microdisplays needs to conquer many difficulties which related with material, fabrication, electronic circuit, optics and so on, these means a high technology barrier. the research on their control and drive technology is essential for the performance and operation, it is also very helpful for us to get our own intelligence property during the process of the hmd system design. the first chapter in this paper makes a full scale introduction about the concept, history, configuration & structure of hmd

    Hmd的像源器件(即微型顯示晶元)是整個hmd系統中最重要的組分,現階段的主流像源「硅基液晶」 ( liquidcrystalonsilicon , lcos )與「有機發光」 ( organiclightemittingdiode , oled )微顯晶元在研發中需克服材料、工藝、電路、光學等諸多方面的困難,有較高的技術門檻,其驅動及控制技術的研究是整個hmd系統中不可或缺的一環,對hmd的性能、功能及使用方式等具有決定性作用,這同時也是開發具有自主知識產權樣機的必備基礎。
  19. 4. oled display, more power saving

    4 . oled螢幕顯示,節省用電
  20. The influence of functional layer upon the performance of the oled is studied ahead the mutually doped transitional layer

    我們在研究互摻過渡層之前,研究了功能層對器件影響。
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