摘要:
A display mode switching device and method automatically switches a display mode of a television set to an overscan mode or to an underscan mode depending on a content of a screen. In a case of connecting a television set to a computer, a call from an application for an API in an OS is detected by a device driver when a user starts playing a DVD or a game. Accordingly, an output mode for the television set is switched to the overscan mode. In this way, a motion video or a game is displayed on the television set in the overscan mode. Meanwhile, when the user finishes playing the DVD or the game, a call for the API to release resources is detected by the device driver, and the output mode is restored to the underscan mode. In this way, a computer screen is displayed on the television set in the underscan mode.
摘要:
A display mode switching device and method automatically switches a display mode of a television set to an overscan mode or to an underscan mode depending on a content of a screen. In a case of connecting a television set to a computer, a call from an application for an API in an OS is detected by a device driver when a user starts playing a DVD or a game. Accordingly, an output mode for the television set is switched to the overscan mode. In this way, a motion video or a game is displayed on the television set in the overscan mode. Meanwhile, when the user finishes playing the DVD or the game, a call for the API to release resources is detected by the device driver, and the output mode is restored to the underscan mode. In this way, a computer screen is displayed on the television set in the underscan mode.
摘要:
Provided is a method of driving an information display panel in which at least two types of display media comprised of particle groups containing chargeable particles are sealed between two opposed substrates, at least one substrate being transparent, and a voltage is applied across a pair of opposed pixel electrodes formed by providing conductive films to the respective substrates to move the display media, thereby displaying an information image, wherein, in a series of alternating voltage pulses applied at the time of deleting the information image displayed on the information display panel, there is provided an OFF time, which is a period during which application voltage of 0 volt is maintained during change of polarity of each pulse voltage. With this configuration, it is possible to provide a method of driving an information display panel capable of achieving the longer lifetime of a battery at the time when the panel is driven by the battery and of preventing drop of the voltage from a power supply, by reducing a peak value of the electric current occurring at the time of deleting with the alternating voltage.
摘要:
Provided is a method of driving an information display panel in which: at least two types of display media comprised of particle groups containing chargeable particles are sealed between opposed two substrates, at least one substrate being transparent; a voltage is applied across a pair of opposed pixel electrodes formed such that conductive films provided to the respective substrates face each other to move the display media, thereby displaying an information image, wherein, at the time of deleting the information image displayed on the information display panel, application of an alternating voltage and application of positive or negative voltage two or more cycles in a row are combined to delete the information image. With this method of driving an information display panel, it is possible to sufficiently delete a history of a previously displayed information image without causing the decrease in lifetime of display-rewriting and increase in power consumption.
摘要:
A system, method, and computer-usable medium are presented for controlling viewing angle characteristics by performing a color palette gradation control of a liquid crystal display, such that adjustment effects on a viewing angle range are improved.
摘要:
On the surface of a core particle of a toner particle, a silane coupling agent treatment layer, a coating layer of thermoplastic resin microparticles applied to the core particle and a charge control agent added to the coating layer through the silane coupling agent treatment layer are provided, wherein the toner particle has a particle diameter of 1 to 10 μm, or on the surface of a core particle of a toner particle, a coating layer of thermoplastic resin microparticles and a charge control agent added to the coating layer and made of an organic compound containing at least one type of lanthanoid metal are provided, or on a ZnS type fluorescent body core particle, a coating layer of thermoplastic resin microparticles and a charge control agent added to the coating layer and including a metal compound containing the IIA metal or IIIA group metal are provided.
摘要:
A system, method, and computer-usable medium are presented for controlling viewing angle characteristics by performing a color palette gradation control of a liquid crystal display, such that adjustment effects on a viewing angle range are improved.
摘要:
An information handling apparatus and screen display control method for appropriately controlling a screen display when a changed output destination for a display signal is selected from among a plurality of display devices having different resolutions. The method, which switches a display signal output destination between a plurality of display devices connected to an information processing apparatus, has (a) a first resolution control step of examining a physical maximum resolution for each of the plurality of display devices that are connected to the information handling apparatus, and storing the examined physical maximum resolutions respectively; (b) a second resolution control step of determining a maximum resolution (maximum static resolution) that is used for the allocation of a screen buffer; (c) a selection step of designating one of the plurality of display devices as an display signal output destination in accordance with an instruction from a user; (d) a third resolution control step of determining a maximum resolution (maximum dynamic resolution) in accordance with a display ability of software for which a screen display is currently being performed; and (e) a resolution determination step of setting a physical resolution of the display device designated, at the step (c), as the display signal output destination, to a lower resolution of either the physical maximum resolution stored at the step (a) or the maximum dynamic resolution determined at the step (d).