摘要:
A method is provided of producing an active matrix display device having an optical layer comprising a mixture of an electro-optical material and a polymer precursor. An upper layer of the active plate is processed in dependence on a difference between the transmission or reflection characteristics of the row and column conductors and of the pixel electrodes, thereby to process the upper layer in dependence on the row and column pattern or the pixel electrode pattern. The optical layer is then exposed from above the substrate to a stimulus for polymerizing the polymer precursor into a discrete polymer surface layer, thereby enclosing the electro-optical material between the polymerized material and the active plate to define display pixels. Enclosed bodies of electro-optical material defining display pixels are defined in a pattern defined by the processing of the upper layer. This method uses the existing row and column pattern or pixel electrode pattern to define in a self-aligned manner the partitions between liquid crystal cell pockets.
摘要:
An active matrix display device has an optical layer (7,9,11) comprising a mixture of an electro-optical material and a polymer precursor. An upper surface of the active plate comprises an array of wells (70) such that the upper surface has higher (72) and lower regions, and the optical layer mixture is provided over the active plate. The optical layer is exposed to a stimulus for polymerizing the polymer precursor into a polymer layer constituted by a top surface (9) and by side walls (11), thereby enclosing the electro-optical material between the polymerized material and the active plate to define display pixels. Enclosed bodies of electro-optical material defining display pixels are thus provided over the lower regions. This method uses the processing of the active plate to define wells (70) which provide a height difference which can be used to provide alignment of enclosed display pixels cells. This avoids the need for an alignment mask during the deposition and exposure of the optical layer. In an embodiment of the invention,a layer (74) having affinity to the polymer precursor is provided on the higher regions in a stamping step before exposing the otical layer to the stilus.
摘要:
An electronic device (10) comprises a substrate (100) carrying a single electrode structure (120) and a plurality of electro-optical elements (140; 160, 180). The plurality of electro-optical elements (140, 160, 180) at least includes a first electro-optical element (140) covering a first part of the electrode structure (120), the first electro-optical element (140) comprising a first electrooptical material with a first transmission/voltage response characteristic and a second electro-optical element (160) covering a second part of the electrode structure (120), the second electro-optical element (160) comprising a second electro-optical material with a second transmission/vokage response characteristic. Consequently, the various electro-optical elements (140; 160 180) can be individually controlled with a single electrode structure by applying variable voltages.
摘要:
The present invention discloses an electronic device (100) comprising a substrate (10) carrying an electrode structure (12); an electro-optical stack (90) at least partially covering the electrode structure (12), the electro-optical stack comprising a stratified polymer layer (44), a further substrate (20) and an electro-optical material (32) sandwiched between the polymer layer (44) and the further substrate (20); and an adhesive layer (60) between the substrate (10) and the electro-optical stack, as well as a method for producing such an electronic device (100), in which the electro-optical stack (90) and the substrate (10) are prepared in separate processes and combined by an adhesive layer (60). This improves the yield of such an electronic device (100), because a production error in one of the components no longer leads to the loss of the whole electronic device (100). Also, sensitive components on the substrate (10) such as polymer based TFTs, are protected from exposure to the processing steps of the electro-optical stack (90).
摘要:
The electronic device (1) of the present invention has a carrier (10) with a plurality of discrete electro-optical elements (110, 130, 150) mounted on the surface of the carrier (10). The electro-optical elements (110, 130, 150), which cover respective parts of the electrode structure (12) on the surface of the carrier (10), each have a polymer layer (114, 134, 154), which encloses an electro-optical material (102, 122, 142) between the polymer layer (114, 134, 154) and the surface of the carrier (10). The discrete electro-optical elements (110, 130, 150) have been formed by the individual deposition of discrete droplets of a liquid comprising the electro-optical material and a polymer precursor followed by exposure of the droplets to a stimulus triggering the polymerization of the polymer precursor.
摘要:
A display system is provided with means to determine (14,15) and to display a remaining lifetime or other physical properties of a display device of said display system to signal the need for replacement.
摘要:
TFTs (10) within a display device (1) are intentionally made sensitive to radiation from an external light source (12), for example by making a pin-hole (34) in the socalled black-matrix layer (33). The voltage across the pixel (8) or sensing this voltage drop just before refreshing the pixel content during 5 the next refresh cycle, it is possible to distinguish between an intentionally illuminated pixel (8) or pixel patterns (37, 38) and a non-illuminated pixel (8).
摘要:
A device such as a flexible LCD is described comprising first and second layers wherein the first layer is a flexible substrate and the second layer is a brittle ITO conduction line applied to the substrate. The ITO layer is substantially flat and meanders across the plane of the flexible substrate so as to prevent fracture of the ITO layer when the flexible substrate is deformed. The ITO layer may be subdivided into portions, the length of the portions being selected to prevent fracture when the flexible substrate is deformed to a predetermined radius of curvature.
摘要:
A matrix array display device (100) is mounted on a flexible substrate (110) such as a polyimide substrate, and has a plurality of first conductors (120) crossing a plurality of second conductors (130), with a plurality of pixels (140) being located in the vicinity of a crossing between a first conductor (120) and a second conductor (130). The display device (100) includes a flexible shift register (150) and an optional further flexible shift register (160) for addressing the first conductors (120). The flexible shift register (150), which preferably is realized using organic semiconductor materials, occupies a smaller area of the flexible substrate (110) than for instance a bus structure, thus increasing the effective display area of the display device (100).
摘要:
A display employs an arrangement of a matrix of pixels (30), and a column driving circuit (10) including an array of fixed level data drivers (30) for generating a drive waveform that is applied to the matrix of pixels (30) during an image update period. A power supply (VPS) for each fixed level data driver (11) is set to a base voltage (V0) during a first phase (P1) of a driving portion (DP) of the image update period, and the power supply (VPS) of each fixed level data driver (11) is switched from the base voltage (V0) to a transitional voltage (V1) in response to a transition from the first phase (P1) of the driving portion (DP) to a second phase (P2) of the driving portion (DP). The base voltage (V0) will either be less than or greater than the transitional voltage (V1).
摘要翻译:显示器采用像素矩阵(30)的布置,以及包括固定电平数据驱动器(30)的阵列的列驱动电路(10),用于产生在像素(30)的矩阵期间施加的驱动波形 图像更新周期。 在固定电平数据驱动器(11)的第一阶段(P 1)期间,将每个固定电平数据驱动器(11)的电源(V SUB PS)设置为基极电压(V SUB) 图像更新周期的驱动部分(DP)和每个固定电平数据驱动器(11)的电源(V SUB PS)从基极电压(V SUB 0 SUB 响应于从驱动部分(DP)的第一相(P 1)到驱动部分(DP)的第二相(P 2)的转变,转移到过渡电压(V SUB1) DP)。 基极电压(V SUB)将小于或大于过渡电压(V SUB)。