摘要:
An electroluminescent display device is increased in size by securing plural small-size panels, each incorporating plural electroluminescent elements, to a large-size support with an intervening adhesive layer.
摘要:
A method is provided for manufacturing a film formation member having a dividing wall provided on a substrate to form a plurality of partitioned sections with a film being formed within each of the partitioned sections by discharging a predetermined amount of liquid within each of the partitioned sections. The method includes identifying a position of at least one of the partitioned section as a partitioned section with nonuniform liquid affinity among the partitioned sections, and discharging the liquid over a wider discharge range inside the partitioned section with nonuniform liquid affinity than a discharge range inside a partitioned section other than the partitioned section with nonuniform liquid affinity.
摘要:
A color filter manufacturing method includes discharging droplets of an ink from a droplet discharge head into a plurality of cells formed on a substrate while moving the substrate with respect to the droplet discharge head, and curing the ink discharged in the cells to form a colored portion within each of the cells. The discharging of the droplets includes prohibiting landing of the droplets in a landing prohibition region formed at a predetermined width from edges of each of the cells in a movement direction of the substrate with respect to the droplet discharge head. The landing prohibition region being arranged so that a relationship 0.5≦L1/L2≦4.5 is satisfied, wherein a value L1 indicates a width of the landing prohibition region and a value L2 indicates an average diameter of the droplets of the ink.
摘要:
An electro-optical device includes a plurality of pixels arranged on a substrate. Each of the pixels includes a plurality of EL light-emitting elements that are disposed on the substrate and are connected in series. Each of the EL light-emitting elements includes a first electrode, a luminescent layer, and a second electrode that are disposed in a thickness direction of the substrate, and each of the EL light-emitting elements has a characteristic of emitting light in response both to a forward applied voltage and to a reverse applied voltage. The first electrodes or the second electrodes of neighboring EL light-emitting elements of the plurality of EL light-emitting elements are coupled to each other, so that the plurality of EL light-emitting elements are connected in series.
摘要:
A developing device developing a latent image on a latent image carrier with a developer, and including a casing having an opening facing the latent image carrier and a developer carrier. Also included is a magnetic field generating device including a first magnetic pole generating a magnetic field causing the developer to rise on the developer carrier in a form of a magnet brush in a developing region, and a second magnetic pole generating a magnetic field at a downstream side of the first magnetic pole in a rotating direction of the developer carrier. Further, a toner-scattering restraining device is provided on an end portion of the casing at the downstream side of the developing region, and a magnetic member provided on a side of the toner-scattering restraining device facing the latent image carrier. A peak of a magnetic flux density set by the second magnetic pole in its normal direction is located outside of the opening.
摘要:
An electrostatic capacitance sensing device of exemplary embodiments of the present invention include M number of row lines, N number of column lines that are arranged in a matrix of M rows and N columns, N number of path gates for output signal, and electrostatic capacitance sensing elements provided at the intersections between the row and column lines. The electrostatic capacitance sensing element includes a signal sensing element, a signal amplifying element, a column selection element, and a row selection element. The signal sensing element includes a capacitance sensing electrode and a capacitance sensing dielectric film. The path gate for output signal, the signal amplifying element, the column selection element, and the row selection element are made up of thin-film semiconductor devices.
摘要:
An electrostatic capacitance sensing device of exemplary embodiments of the present invention include M number of row lines, N number of column lines that are arranged in a matrix of M rows and N columns, N number of path gates for output signal, and electrostatic capacitance sensing elements provided at the intersections between the row and column lines. The electrostatic capacitance sensing element includes a signal sensing element, a signal amplifying element, a column selection element, and a row selection element. The signal sensing element includes a capacitance sensing electrode and a capacitance sensing dielectric film. The path gate for output signal, the signal amplifying element, the column selection element, and the row selection element are made up of thin-film semiconductor devices.
摘要:
A method includes supplying different colored inks to cells on a color filter substrate manufactured based on drawing pattern data; detecting a physical factor of the droplet ejection apparatus or ink affecting an ejected ink amount; determining whether the physical factor is acceptable; and producing correction data when the physical factor is unacceptable. The correction data producing step includes preparing a test substrate having cells corresponding to the cells of the substrate; supplying ink to cells of the test substrate based on the drawing pattern data; and detecting the amount supplied to each cell. The correction data is used to adjust the number of ink droplets supplied to each cell so that the ink amount equals a target amount. The correction data is used to correct the drawing pattern data, and the ink supplying step is then executed using the corrected drawing pattern data.
摘要:
A two-component developing apparatus includes a developer carrier, a first regulating member, a developer container, and a toner container. The developer carrier is configured to carry and transfer the two-component developer including a magnetic carrier. The first regulating member is configured to regulate an amount of the two-component developer carried and transferred by the developer carrier. The developer container is configured to receive the developer removed by the first, regulating member. The toner container is configured to supply toner to the developer carrier. The developer stirring member is configured to carry and stir the developer between the first regulating member and the second regulating member. The second regulating member includes a support member on one end side of the second regulating member in its longitudinal direction to which greater amount of the developer is supplied than to another end side of the second regulating member.
摘要:
A developing device including a developer containing magnetic toner grains and includes a main pole for development disposed in a sleeve. Flux density generated by the magnetic pole in a direction normal to the surface of the sleeve outside of the surface has an attenuation ratio of 50% or above. The toner grains have a weight mean grain size of 6.0 μm to 8.0 μm while the toner grains having grain sizes of 5 μm and below occupy 40% to 80% of the entire developer. The toner grains have magnetization strength of 10 emu/g to 25 emu/g in a magnetic field of 5 kOe or magnetization strength of 7 emu/g to 20 emu/g in a magnetic field of 1 kOe. The toner grains reduce toner scattering and image defects despite that they are magnetic, thereby implementing ultrahigh resolution.