Quantum Data 700, 701 quick start 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 Contents Using Battery Power Using AC PowerGetting Started DVI-I Computer InterfacesLCD Display User InterfaceFunction Buttons Reloading Standard Formats Viewing Formats by Signal TypeSelecting Formats Selecting FormatsSelecting Images Selecting ImagesGating Outputs Setting Power Save Preference Setting Power Save PreferencesOptions Menu Equipment Needed for Calibration CalibratingCalibrating Outputs Adjusting Horizontal Scanning Frequency Locking Calibration SettingsLearn Monitor Detecting Formats Supported by a MonitorTest Menu Using Test SequencesRunning Test Sequence Manually Creating Test Sequence for DDC Displays Running Test Sequence in Burn-In ModeSpecial Tests Using Generator with CS-1 ProbeTesting Audio Testing Hdcp InterfacesGenerating Pseudo Random Noise About VGM Using Video Generator ManagerVGM Quick Tour Editing Video Formats Creating Video FormatsEditing the Test Sequence Modifying Test SequenceRevGrid Pattern DescriptionsFlatWht/R,G,B GridFocus RasterCutoff WindowSMPTEBar RegulateChecker Dot12PulseBar RampBurst Updating Firmware Updating FirmwareVideo Formats SpecificationsService and Support Contacts Model 700, 701 Quick Start Guide

700, 701 specifications

The Quantum Data 700 and 701 series represent innovative advancements in the realm of signal analysis and video testing equipment. These devices cater to professionals in industries ranging from broadcasting and production to consumer electronics and display manufacturing, offering comprehensive solutions for analyzing and testing digital video signals.

One of the standout features of the Quantum Data 700 and 701 is their compatibility with a vast array of video formats, including HDMI, DVI, and DisplayPort. This versatility ensures that users can effectively test and analyze both current and emerging video technologies. The devices support resolutions up to 4K, allowing for high-definition testing that meets the demands of modern content creation and distribution.

The Quantum Data 700 series incorporates state-of-the-art analysis capabilities, enabling real-time monitoring of signal integrity. Users can assess parameters such as timing, voltage levels, and signal quality, which are critical for ensuring a reliable and accurate video output. The built-in diagnostic tools help identify potential issues, minimizing downtime and enhancing productivity in professional environments.

Meanwhile, the 701 model takes things a step further with advanced communication features. It includes extensive support for HDR (High Dynamic Range) and color space formats, ensuring that users can assess video signals under a variety of high-quality settings. The integration of HDCP (High-bandwidth Digital Content Protection) testing functions also safeguards against playback issues related to content protection.

Both models feature intuitive user interfaces that streamline operations. The graphical display provides clear visual feedback, and users can easily navigate through testing modes and settings. Additionally, the compact design and portable nature of these devices make them ideal for on-site testing or remote locations.

Another significant characteristic of the Quantum Data 700 and 701 series is their compatibility with automated testing systems. This enables users to execute repetitive testing procedures efficiently, saving time and reducing the probability of human error. Coupled with extensive reporting capabilities, these devices empower professionals to document their findings meticulously, facilitating seamless communication with stakeholders.

Overall, the Quantum Data 700 and 701 series are essential tools for professionals requiring precise video testing and analysis. Their advanced features, robust technologies, and user-friendly design place them at the forefront of video testing solutions, meeting the evolving needs of the digital content landscape. Whether for production studios, equipment manufacturers, or installers, these devices deliver accuracy and reliability in a compact package.