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    • 1. 发明公开
    • PLASMA ADDRESSED DISPLAY DEVICE WITH A FUNCTION OF CONTROLLING PARTIAL PRESSURE OF DOPANT GAS
    • 等离子体选址显示器常见的函数用于控制掺杂气体中的分压
    • EP1224679A2
    • 2002-07-24
    • EP01938264.7
    • 2001-06-13
    • Koninklijke Philips Electronics N.V.
    • VAN DER WEL, Pieter
    • H01J17/00
    • G02F1/13334H01J17/22H01J17/48H01J2217/4025
    • The object of the invention is to provide a plasma addressed display device which can adapt the amount of dopant gas released or absorbed by the storage material to a changing real-operating/environment conditions of the display device in order to control the partial pressure of the dopant gas in the channel. Configuration: A plasma addressed display device comprising: a channel substrate (2) provided with an array of interconnected longitudinal channel chambers; a cover sheet (4) extending over the channel chambers (30) and making seals to the channel chambers on a side of an upper face of the chamber, whereby the channel substrate and the cover sheet define sealed channel chambers; a pair of electrodes (3a,3c) located in each sealed channel chamber for selectively ionizing a gas within the channel chamber; a dopant source (53) having a storage material that reversibly absorbs and releases a dopant gas to be mixed with a primary ionizable gas in the sealed channel chambers; and a heater (5H) for heating the storage material. The device is provided with a feedback loop (100-103, 5H) for a control of partial pressure of the dopant gas within the sealed channel chambers, the feedback loop comprising: measurement means (100,101) for measuring a value of a decay time of an electrical conductivity in at least one of the channel chambers from turning off the plasma in the channel chamber; and control means (102, 103) for controlling a temperature of the storage material through the heater (5H) on the basis of the measured value so that the decay time is within a predetermined range.
    • 3. 发明公开
    • DISPLAY DEVICE
    • 显示设备
    • EP0927430A1
    • 1999-07-07
    • EP98917495.0
    • 1998-05-11
    • Koninklijke Philips Electronics N.V.
    • BOHMER, Marcel, RenéSCHOLTEN, MonicaVAN SLOOTEN, Udo
    • G02F1G09F9H01J9H01J17
    • H01J17/485G02F1/13334H01J17/04
    • The display device is furnished with a channel plate (39) comprising channels (30, 30', 3'') containing an ionizable gas (33), and the walls of the channels (30, 30', 30'') being provided with electrodes (31, 32) for selectively generating a plasma discharge of the ionizable gas (33) during operation. The display device further comprises an electro-optical layer (35) of a material having an optical property which is governed by the discharge state of the plasma discharge. The display device is characterized in that at least one of the electrodes (31, 32) is furnished with a layer (37) comprising particles of a sputter-resistant material having an average diameter ≤2.5 νm, preferably ≤1.5 νm. The particles are preferably composed of rare-earth borides (for example LaB6) or ruthenium oxide.
    • 该显示装置配备有包含含有可电离气体(33)的通道(30,30',3“)的通道板(39),并且通道(30,30',30”)的壁被提供 具有用于在操作期间选择性地产生可电离气体(33)的等离子体放电的电极(31,32)。 该显示装置还包括具有由等离子体放电的放电状态支配的光学性质的材料的电光层(35)。 该显示装置的特征在于,电极(31,32)中的至少一个配备有包含平均直径≤2.5nm,优选≤1.5nm的抗溅射材料的颗粒的层(37)。 颗粒优选由稀土硼化物(例如LaB6)或氧化钌组成。
    • 4. 发明公开
    • DISPLAY DEVICE
    • 显示设备
    • EP0916128A1
    • 1999-05-19
    • EP98907093.0
    • 1998-03-19
    • Koninklijke Philips Electronics N.V.
    • VAN SLOOTEN, Udo
    • G02F1G09F9H01J17
    • G02F1/13334H01J17/485H01J17/49
    • The display device comprises at least one compartment (30, 30', 30'') which contains an ionizable gas (33). Walls of the compartments (30, 30', 30'') are provided with electrodes (31, 32) for selectively ionizing the gas (33), during operation, by means of a direct current. The display device is characterized in that the walls of the compartment (30, 30', 30'') are provided with a layer (20) of a secondary electron-emitting material, the electrons (31, 32) remaining completely or partly uncovered. Preferably, the thickness of the layer (20) exceeds 20 nm, and the secondary electron-emitting material comprises a material of the group formed by magnesium oxide, chromium oxide, silicon nitride and yttrium oxide. Preferably, the display device further comprises an electro-optical layer (35), and a further layer (36) of a dielectric material is situated between the compartment (30, 30', 30'') and the electro-optical layer (35), which further layer (36) is provided with the secondary electro-emitting layer (21) on a side facing away from the electro-optical layer (35).
    • 显示装置包括至少一个容纳可电离气体(33)的隔室(30,30',30“)。 隔室(30,30',30“)的壁在操作过程中通过直流电设置有用于选择性地电离气体(33)的电极(31,32)。 该显示装置的特征在于隔室(30,30',30“)的壁设置有二次电子发射材料层(20),电子(31,32)保持完全或部分未被覆盖 。 优选地,层(20)的厚度超过20nm,并且二次电子发射材料包括由氧化镁,氧化铬,氮化硅和氧化钇形成的组的材料。 优选地,显示装置还包括电光层(35),并且电介质材料的另一层(36)位于隔室(30,30',30“)和电光层(35 ),该另外的层(36)在背离电光层(35)的一侧上设有第二电致发射层(21)。