A method and apparatus of displaying video and graphics data together in a computer graphics display using only the memory needed for the graphics display includes determining the location of the video window in the frame buffer, writing video data to the portion of the frame buffer bounded by the video window. During the raster scan of the frame buffer, if the raster position is within the video window, video data are read from the video data addresses within the video window. When the displayed video window position is changed, the video data are moved accordingly.
A method of displaying a video signal (Vs) with m video lines in a video field period on a plasma display panel (1) which has n display lines (Di), includes selecting (2) the n display lines (Di) in an interlaced way to subsequently select a first and a second field of n/2 display lines (Di) to display an interlaced video signal (Vs). For displaying a progressive video signal (Vs), the m video lines are alternately displayed (3) on the first field of display lines (Di) only, or on the second field of display lines (Di) only, both during respective time periods which are longer than the video field period.
A portable computer apparatus (1), such as a PDA, has an LCD(3). The LCD(3) can be operated in two modes. In one mode, only a portion of the LCD(3) is active whereas in the other mode, the whole LCD(3) is active. When the apparatus (1) is switched on, it operates according to a first operating program which uses only a portion of the LCD(3). The user may then instruct the apparatus to operate according to a second operating program and use the whole LCD(3).
The invention relates to computer graphics and computer imaging on a video display, and includes the dynamic detection of video windows and graphical images overlapping one another. A display processor identifies differences between typical video and graphics data sources to detect the edges of video windows. By detecting the edges of active video windows within a graphics image, a display processor may uniquely adjust image characteristics of an exposed video window. These characteristics include, for example, hue, brightness, intensity and contrast.
A graphics controller for animating an overlay is described. The graphics controller includes a host interface for communicating with an external processor and a plurality of registers in communication with the host interface. Logic is configured to periodically change coordinates of an overlay image. The logic responds to values stored in the registers to cause display registers containing the coordinates to be updated every x number of frame refreshes, wherein x is a positive integer.
