Lecture Computer graphics: Lecture 3 - Fasih ur Rehman

In this lecture we will focus: Understanding the basic concepts and parameters related to an image and physical display screen, understanding the basic display technology employed in raster scan CRT with reference to the architecture of a CRT, understanding the theory of colour display with reference to graphics memory and CRT circuitry. | Computer Graphics Lecture 03 Fasih ur Rehman Last Class Introduction to Computer Graphics (Cont.) Visualization Image Processing Graphical User Interfaces (GUI) Overview of Graphics Systems Display Devices Today’s Agenda Overview of Graphics Systems Display Devices Colors and colored displays Raster displays and frame buffer CRT Filament (acts as heating element, electrons emit from it in the form of beam) Electrons move towards positive plate (Anode) focusing cylinder (Electric field) Vertical and horizontal deflection plates have magnetic field in between them and control the position of the electron beam. Beam strikes phosphor coating on front of tube producing illumination. Stronger the beam, brighter is the screen Longer the beam stays on a point brighter is the screen Characteristics of CRT It’s massive evacuated glass tube Capabilities of CRT are measured by Size of tube Brightness of the phosphors vs. darkness of the tube Speed of electron gun Diameter of the beam Pixels . | Computer Graphics Lecture 03 Fasih ur Rehman Last Class Introduction to Computer Graphics (Cont.) Visualization Image Processing Graphical User Interfaces (GUI) Overview of Graphics Systems Display Devices Today’s Agenda Overview of Graphics Systems Display Devices Colors and colored displays Raster displays and frame buffer CRT Filament (acts as heating element, electrons emit from it in the form of beam) Electrons move towards positive plate (Anode) focusing cylinder (Electric field) Vertical and horizontal deflection plates have magnetic field in between them and control the position of the electron beam. Beam strikes phosphor coating on front of tube producing illumination. Stronger the beam, brighter is the screen Longer the beam stays on a point brighter is the screen Characteristics of CRT It’s massive evacuated glass tube Capabilities of CRT are measured by Size of tube Brightness of the phosphors vs. darkness of the tube Speed of electron gun Diameter of the beam Pixels Disadvantages are Size of the tube High power consumption Flicker Costly to refresh Characteristics of CRT (Phosphors) Florescence is Light emitted while the phosphor is being struck by electrons Phosphorescence is Light emitted once the electron beam is removed Persistence: The time from the removal of the excitation to the moment when phosphorescence has decayed to 10% of the initial light output Interlacing Video Formats NTSC - 525x480, 30f/s, interlaced PAL - 625x480, 25f/s, interlaced VGA - 640x480, 60f/s, non-interlaced SVGA – 800x600, 60f/s non-interlaced RGB - 3 independent video signals and synchronization signal, vary in resolution and refresh rate Time-multiplexed color - R,G,B one after another on a single signal, vary in resolution and refresh rate Colors Additive Colors Red Green and Blue (sometimes White) Subtractive Colors Yellow Cyan Magenta and Black Color Display .

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