Quantum Data 700 Series manual Pattern Descriptions, FlatWht/R,G,B, RevGrid, Overscan

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Pattern Descriptions

Flat_Wht/(R,G,B)

Description - Fills the screen with white, blue (B), green (G) or red (R).

Application - Use to test chrominence.

Grid

Decription - White crosshatch on a black background. The lines form square boxes. A single pixel dot is located in the center of each crosshatch box.

Application - Use the Grid pattern to test convergence. To accurately produce an image on a color monitor, the three electron beams in the CRT must meet (converge) at the same location at the same time. Lines displayed on a misconverged monitor appear as several multi-colored lines, and the transitions between different colored areas contain fringes of other colors.

Rev_Grid

Description - Black crosshatch drawn on a white background. The lines form square boxes.

Application - Use to test convergence. To accurately produce an image on a color monitor, the three electron beams in the CRT must meet (converge) at the same location at the same time. Lines displayed on a misconverged monitor appear as several multi-colored lines, and the transitions between different colored areas contain fringes of other colors.

Overscan

Description - The image has three parts. The first part consists of five white circles. A large circle is drawn in the center of the screen. Its diameter equals the lesser of the video height or width of the display. A circle also is drawn in each of the corners of the screen. The diameter of the corner circles equals one-fifth of the display width.

The second part of the image consists of a white crosshatch. The number of boxes in the crosshatch depends on the physical size of the display.

The last part of the image consists of white tic marks on the horizontal and vertical center lines of the image. The marks are one pixel thick. Every other mark is slightly longer. The color of the pattern can be changed with the individual video output controls.

Application - Used for detecting non-uniformity and non-linearity. The image presents an undistorted display, the horizontal and vertical sweeps of the electron beam across the face of the CRT should be at uniform speeds. Any non-uniformity in the sweep causes portions of an image to stretch while other portions are compressed. Non-linearity in a monitor shows up in several ways. It may be

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Contents Page Contents Getting Started Using AC PowerUsing Battery Power Computer Interfaces DVI-IFunction Buttons User InterfaceLCD Display Viewing Formats by Signal Type Selecting FormatsSelecting Formats Reloading Standard FormatsGating Outputs Selecting ImagesSelecting Images Options Menu Setting Power Save PreferencesSetting Power Save Preference Calibrating Equipment Needed for CalibrationCalibrating Outputs Locking Calibration Settings Adjusting Horizontal Scanning FrequencyDetecting Formats Supported by a Monitor Learn MonitorRunning Test Sequence Manually Using Test SequencesTest Menu Running Test Sequence in Burn-In Mode Creating Test Sequence for DDC DisplaysUsing Generator with CS-1 Probe Testing AudioTesting Hdcp Interfaces Special TestsGenerating Pseudo Random Noise VGM Quick Tour Using Video Generator ManagerAbout VGM Creating Video Formats Editing Video FormatsModifying Test Sequence Editing the Test SequencePattern Descriptions FlatWht/R,G,BGrid RevGridRaster CutoffWindow FocusRegulate CheckerDot12 SMPTEBarBurst RampPulseBar Updating Firmware Updating FirmwareSpecifications Video FormatsService and Support Contacts