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新型SMPDP菱形单元结构的研究 被引量:1

Simulation of Diamond-Structured Cells of Shadow Mask Plasma Display Panel
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摘要 为了提高等离子体显示单元的亮度和放电效率,本文采用三维流体模型对新型荫罩式等离子体显示板(SMPDP)的菱形单元结构进行了优化。研究了放电单元中的荫罩小孔结构改变对寻址期和维持期放电的影响。详细分析了小孔取向平行寻址电极和垂直寻址电极条件下电场和壁电荷的分布,以及对寻址时间、真空紫外辐射量和放电效率的影响。模拟结果表明:当小孔垂直寻址电极、长度和宽度分别为240μm和120μm时为最佳结构,通过优化小孔结构可以获得较高的寻址速度和放电效率,又可保证荧光粉的涂覆面积。 The structure of the diamond-shaped cell of the novel shadow mask plasma display panel(SMPDP) was simulated with the three-dimensional fluid model. The influence of the structural changes of the shadow mask on the discharge characteristics in the address and sustain periods was studied. The distributions of the electric field and the wall change for the holes, oriented parallel and normal to the address electrodes, were calculated and their impacts on the address time, vacuum ultraviolet (VUV) emission energy, and discharge efficiency were evaluated. The simulated results show that the optimized hole structure with the oriented normal to the address electrode, 240μm long and 120μm wide, provides faster address speed, higher discharge efficicncy and more phosphor area.
作者 温佳佳 屠彦 杨兰兰
机构地区 东南大学显示技术研究中心
出处 《真空科学与技术学报》 EI CAS CSCD 北大核心 2010年第1期16-21,共6页 Chinese Journal of Vacuum Science and Technology
基金 国家自然科学基金(No.60871015)资助项目
关键词 等离子体显示板(PDP) 荫罩式等离子体显示板(SMPDP) 流体模型 放电效率 Plasma display panel (PDP), Shadow mask plasma display panel (SMPDP), Fluid model, Discharge efficiency
分类号 TN873.94 [电子电信—信息与通信工程]
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共引文献21

同被引文献12

  • 1彭国贤.彩色PDP显示电极的制造工艺[J].真空电子技术,2005,18(1):28-33. 被引量:1
  • 2Boeuf J P. Plasma Display Panels: Physics, Recent Develop- ments and Key Issues [ J]. Phys D: Appl Phys, 2003,36(6): 53 - 79.
  • 3Victor B,Kreng,Hsi Tse Wang. The Interaction of the Market Competition between LCD TV and PDP TV [J]. Computers & Industrial Engineering, 2009,57 : 1210 - 1217.
  • 4Chae S, Heo E, Kim C, et al. Paste for Forming an Electrode of Plasma Display Panel (PDP), Includes Aluminum Solution which Contains Aluminum Particles and Surface Treatment A- gent [ P ]. US: 2010001640-A1, EP: 2144270-A2, JP: 2010015992-A, CN: 101625949-A, KR: 2010005694-A, 2010- 01.
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  • 7Kwak Dong-Joo, Park Min-Woo, Sung Youl-Moon. Discharge Power Dependence of Structural and Electrical Properties of A1-Doped ZnO Conducting Film by Magnetron Sputtering (for PDP)[J].Vacuum,2009,83:113 - 118.
  • 8KIM J S,KIM K K,RYU B G,et al. Mefllod for Forming Di- electric Layer of PDP Panel Using Nozzle Capable of Reduc- ing Manufacturing Cost of Micro-Lens Type Dielectric Layer [ P ]. KR: 2007042012- A, 2007-04.
  • 9黄秋铭,张雄,樊兆雯,等.利用电泳法制备等离子体显示板介质层的方法[P].China:101286431,2008-10.
  • 10Sangwook Lee, Mikyung Park, Seongjin Hwang, et al. Shape Change of Ag Electrode with Shrinkage Difference between Electrode and Dielectric in PDP [ J]. Displays, 2008,29: 345 - 350.

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真空科学与技术学报
2010年 第1期

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