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公开(公告)号:EP1956627A1
公开(公告)日:2008-08-13
申请号:EP08009107.7
申请日:2002-08-13
发明人: Uemura, Norihiro , Suzuki, Keizo , Kajiyama, Hiroshi , Yajima, Yusuke , Shibata, Masayuki , Kawanami, Yoshimi , Ohira, Koji , Ozaki, Ikuo
CPC分类号: H01J11/12 , G09G3/2022 , G09G3/288 , G09G3/293 , G09G3/294 , G09G2320/02 , H01J11/50
摘要: There are provided a plasma display panel (102) and an imaging device (104) which realize a high luminous efficiency, guaranteed long lifetime and stable driving. The plasma display panel uses a discharge-gas mixture containing at least Xe, Ne and He. A Xe proportion of the discharge-gas mixture is in a range of from 2 % to 20 %, a He proportion of the discharge-gas mixture is in a range of from 15 % to 50 %, the He proportion is greater than the Xe proportion, and a total pressure of the discharge-gas mixture is in a range of from 400 Torr to 550 Torr. A width of a voltage pulse to be applied to an address electrode (29) is 2 µs or less.
摘要翻译: 提供实现高发光效率,确保长寿命和稳定驱动的等离子体显示面板(102)和成像装置(104)。 等离子显示面板使用至少包含Xe,Ne和He的放电气体混合物。 排放气体混合物的Xe比例为2%至20%,排放气体混合物的He比例为15%至50%,He比例大于Xe 比例,并且排放气体混合物的总压力在400乇至550乇的范围内。 施加到寻址电极(29)的电压脉冲的宽度是2μs或更少。
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公开(公告)号:EP1956627B1
公开(公告)日:2010-12-08
申请号:EP08009107.7
申请日:2002-08-13
发明人: Uemura, Norihiro , Suzuki, Keizo , Kajiyama, Hiroshi , Yajima, Yusuke , Shibata, Masayuki , Kawanami, Yoshimi , Ohira, Koji , Ozaki, Ikuo
CPC分类号: H01J11/12 , G09G3/2022 , G09G3/288 , G09G3/293 , G09G3/294 , G09G2320/02 , H01J11/50
摘要: There are provided a plasma display panel (100) and an imaging device (102) which realize a high luminous efficiency, guaranteed long lifetime and stable driving. The plasma display panel (100) uses a discharge-gas mixture containing at least Xe, Ne and He. A Xe proportion of the discharge-gas mixture is in a range of from 2 % to 20 %, a He proportion of the discharge-gas mixture is in a range of from 15 % to 50 %, the He proportion is greater than the Xe proportion, and a total pressure of the discharge-gas mixture is in a range of from 400 Torr to 550 Torr. A width of a voltage pulse to be applied to an address electrode is 2 mu s or less.
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